RNA interference mediated inhibition of catenin (cadherin-associated protein), beta 1 (CTNNB1) gene expression using short interfering nucleic acid (siNA)

ABSTRACT

The present invention relates to compounds, compositions, and methods for the study, diagnosis, and treatment of traits, diseases and conditions that respond to the modulation of CTNNB1 gene expression and/or activity, and/or modulate a beta-catenin gene expression pathway. Specifically, the invention relates to double-stranded nucleic acid molecules including small nucleic acid molecules, such as short interfering nucleic acid (siNA), short interfering RNA (siRNA), double-stranded RNA (dsRNA), micro-RNA (miRNA), and short hairpin RNA (shRNA) molecules that are capable of mediating or that mediate RNA interference (RNAi) against CTNNB1 gene expression.

SEQUENCE LISTING

The sequence listing submitted via EFS, in compliance with 37 CFR §1.52(e)(5), is incorporated herein by reference. The sequence listing text file submitted via EFS contains the file “SequenceListingSIRONC2”, created on Jul. 25, 2011 which is 2,173,912 bytes in size.

BACKGROUND OF THE INVENTION

Beta catenin (also known as cadherin-associated protein and β-catenin), is a member of the catenin family of cytosolic proteins. β-catenin is encoded by the CTNNB1 gene.

β-catenin is a pivotal player in the Wnt/Wg signaling pathway, mediators of several developmental processes. In the absence of Wnt, glycogen synthase kinase 3 (GSK-3β), a serine/threonine protein kinase constitutively phosphorylates the β-catenin protein. When Wnt is present and binds to any of the family members of the frizzled receptors (Fz), an intracellular signaling protein known as dishevelled (Dsh) is recruited to the membrane and phosphorylated. GSK-3β is inhibited by the activation of Dsh. As a result, β-catenin levels increase in the cytosol and are translocated into the nucleus to perform a variety of functions. β-catenin acts together with the transcription factors TCF and LEF to activate specific target genes involved in different processes.

β-catenin undergoes phosphorylation upon growth factor stimulation resulting in reduced cell adhesion, thereby functioning as a component of adherin junctions which are multiprotein complexes that mediate cell adhesion, cell-cell communication and cytoskeletal anchoring. (Willert et al., 1998, Curr. Opin. Genet. Dev. 8:95-102).

Thompson et al. suggest that β-catenin plays an important role in various aspects of liver biology including liver development (both embryonic and postnatal), liver regeneration following partial hepatectomy, hepatocyte growth factor (HGF)-induced hepatomegaly, liver zonation, and pathogenesis of liver cancer. (Thompson M D., 2007, Hepatology May; 45(5):1298-305).

Wang et al. (2008) have shown that β-catenin can function as an oncogene. (Wang et al., 2008, Cancer Epidemiol. Biomarkers Prev. 17 (8):2101-8). In patients with basal cell carcinoma an increased level in β-catenin is present and leads to the increase in proliferation of related tumors. Mutations in the β-catenin gene are a cause of colorectal cancer (CRC), pilomatrixoma (PTR), medulloblastoma (MDB), hepatoblastoma, and ovarian cancer.

The role of β-catenin in the development of colorectal cancer has been shown to be regulated by the expression product of the APC (adenomatous polyposis of the colon) gene, a tumor suppressor. (Korinek et al., Science, 1997, 275:1784-1787; Morin et al., Science, 1997, 275:1787-1790). The APC protein normally binds β-catenin in conjunction with TCF/LEF forming a transcription factor complex. Morin et al. (Morin et al., Science, 1997, 275:1787-1790) report that APC protein down-regulates the transcriptional activation mediated by β-catenin and Tcf-4 in colon cancer. Their results indicate that the regulation of β-catenin is critical to APC's tumor suppressive effect and that this regulation can be circumvented by mutations in either APC or β-catenin.

Mutations in the β-catenin gene are either truncations that lead to deletion of part of the N-terminus of β-catenin, or point mutations that affect the serine and threonine residues that are targeted by GSK3α/β or CKIα. These mutant β-catenin proteins are refractory to phosphorylation and thus escape proteasomal degradations. Consequently, β-catenin accumulates within affected cells. Stabilized and nuclear-localized β-catenin is a hallmark of nearly all cases of colon cancer. (Clevers, H., 2006, Cell 127:469-480). Morin et al. demonstrated that mutations of β-catenin that altered phosphorylation sites rendered the cells insensitive to APC-mediated down-regulation of β-catenin and that this disrupted mechanism was critical to colorectal tumorigenesis. (Morin et al., 1997, Science 275:1787-1790).

Other studies also report on the detection of mutations in β-catenin in various cancer cell lines (see e.g., Chan et al., 1999, Nature Genet. 21:410-413; Blaker et al., 1999, Genes Chromosomes Cancer 25:399-402; Sagae et al., 1999, Jpn. J. Cancer Res. 90:510-515; Wang et al., 2008, Cancer Epidemiol. Biomarkers Prev. 17(8):2101-8). Additionally, abnormally high amounts of β-catenin have also been found in melanoma cell lines (see e.g., Rubinfeld et al., 1997, Science, 275:1790-1792).

Likewise other cancers, such as hepatocellular carcinoma (HCC), have also been associated with the Wnt/beta-catenin pathway. HCC is a complex and heterogeneous disease accounting for more than 660,000 new cases per year worldwide. Multiple reports have shown that Wnt signaling components are activated in human HCC patients. Activated Wnt signaling and nuclear beta-catenin correlate with recurrence of disease and poor prognosis (Takigawa et al. 2008, Curr Drug Targets November; 9(11):1013-24). Elevated nuclear beta-catenin staining has been documented in 17-66% of HCC patients (Zulehner et al. 2010, Am J Pathol. January; 176(1):472-81; Yu et al. 2009, J. Hepatol. May; 50(5):948-57). Merck's internal dataset on ˜300 HCC patient tumors generated in collaboration with the Hong Kong University indicates Wnt signaling components are activated in 50% of HCC patients. External data have shown activating beta-catenin mutations in 13-40% of HCC patients, while inactivating Axin 1 or 2 mutations were present in ˜10% of HCC patients (Lee et al. 2006, Frontiers in Bioscience May 1:11:1901-1915).

Preclinical studies provide evidence that activation of the Wnt/beta-catenin pathway is important in the generation and maintenance of HCC. Liver-targeted disruption of APC in mice activates beta-catenin signaling and leads to the formation of HCC (Colnot et al. 2004, Proc Natl Acad Sci USA. December 7; 101(49):17216-21). Although overexpression of a beta-catenin mutant lacking the GSK-32beta phosphorylation sites alone is not sufficient for hepatocarcinogenesis (Harada et al. 2002, Cancer Res. April 1; 62(7):1971-7.), overexpression of tumorigenic mutant beta-catenin has been shown to make mice susceptible to HCC induced by DEN (diethylnitrosamine), a known carcinogen (Nejak-Bowen et al. 2010, Hepatology 2010 May; 51(5):1603-13. Interestingly, 95% of HCC tumors initiated by overexpression of the human Met receptor in mice (Tre-Met transgenic mouse model) harbor beta-catenin activating mutations (Tward et al. 2007, Proc Natl Acad Sci USA. September 11; 104(37):14771-6). This finding reflects the human disease and suggests that the Wnt pathway cooperates with Met signaling during hepatocarcinogenesis. High rates of beta-catenin activating mutations are also found in other transgenic mouse models for HCC (16% beta-catenin mutations in FGF19, 55% in c-Myc and 41% in H-Ras transgenic mice) (Nicholes et al. 2002, Am J. Pathol. June; 160(6):2295-307 de la Coste et al. 1998, Proc Natl Acad Sci USA. July 21; 95(15):8847-51).

Preclinical studies have also shown that beta-catenin is a valid target for HCC. Beta-catenin siRNAs inhibit proliferation and viability of human HCC cell lines (Zeng et al. 2007). Similarly, treatment of human HCC cell lines with an anti-Wnt-1 antibody or TCF4/beta-catenin antagonists induce apoptosis, reduction of c-Myc, cyclin D1 and survivin expression as well as suppress tumor growth in vivo (Wei et al. 2009, Mol Cancer September 24; 8:76; Wei et al. 2010, Int J. Cancer. May 15; 126(10):2426-36.2010).

Hepatocellular carcinoma (HCC) is a common and aggressive cancer for which effective therapies are lacking. The Wnt/beta-catenin pathway is activated in a high proportion of HCC cases (˜50%), frequently owing to mutations in beta-catenin (i.e. CTNNB1) or in the beta-catenin destruction complex (e.g. Axin1). Moreover, the Wnt pathway as a target has proven to be challenging and is currently undruggable by small molecule inhibitors, making beta-catenin an attractive target for an RNAi-based therapeutic approach (Llovet et al. 2008, Hepatology October: 48: 1312-1327).

Alteration of gene expression, specifically CTNNB1 gene expression, through RNA interference (hereinafter “RNAi”) is one approach for meeting this need. RNAi is induced by short single-stranded RNA (“siRNA”) or double-stranded RNA (“dsRNA”) molecules. The short dsRNA molecules, called “short interfering nucleic acids (“siNA”)” or “short interfering RNA” or “siRNA” or “RNAi inhibitors” silence the expression of messenger RNAs (“mRNAs”) that share sequence homology to the siNA. This can occur via cleavage of the mRNA mediated by an endonuclease complex containing a siNA, commonly referred to as an RNA-induced silencing complex (RISC). Cleavage of the target RNA typically takes place in the middle of the region complementary to the guide sequence of the siNA duplex (Elbashir et al., 2001, Genes Dev., 15:188). In addition, RNA interference can also involve small RNA (e.g., micro-RNA or miRNA) mediated gene silencing, presumably through cellular mechanisms that either inhibit translation or that regulate chromatin structure and thereby prevent transcription of target gene sequences (see for example Allshire, 2002, Science, 297:1818-1819; Volpe et al., 2002, Science, 297:1833-1837; Jenuwein, 2002, Science, 297:2215-2218; and Hall et al., 2002, Science, 297:2232-2237). Despite significant advances in the field of RNAi, there remains a need for agents that can inhibit CTNNB1 gene expression and that can treat disease associated with CTNNB1 expression such as cancer.

SUMMARY OF THE INVENTION

The invention provides a solution to the problem of treating diseases that respond to the modulation of the CTNNB1 gene expression using novel short interfering nucleic acid (siNA) molecules to modulate CTNNB1 expression.

The present invention provides compounds, compositions, and methods useful for modulating the expression of CTNNB1 genes, specifically those CTNNB1 genes associated with cancer and for treating such conditions by RNA interference (RNAi) using small nucleic acid molecules.

In particular, the instant invention features small nucleic acid molecules, i.e., short interfering nucleic acid (siNA) molecules including, but not limited to, short interfering RNA (siRNA), double-stranded RNA (dsRNA), micro-RNA (miRNA), short hairpin RNA (shRNA) and circular RNA molecules and methods used to modulate the expression of CTNNB1 genes and/or other genes involved in pathways of CTNNB1 gene expression and/or activity.

In one aspect, the invention provides double-stranded short interfering nucleic acid (siNA) molecules that inhibit the expression of a CTNNB1 gene in a cell or mammal, wherein the double-stranded siNAs comprise a sense and an antisense stand. The antisense strand comprises a sequence that is complementary to at least a part of an RNA associated with the expression of the CTNNB1 gene. The sense strand comprises a sequence that is complementary to the antisense strand. In various embodiments, at least one strand comprises at least a 15 nucleotide sequence selected from the group of sequences consisting of SEQ ID NOS:1-6374. In certain embodiments, the antisense strand comprises at least 15, 16, 17, 18, or 19 nucleotides having sequence complementarity to a target sequence set forth in Table 1a. In other and/or in the same embodiments, the antisense strand comprises at least a 15, 16, 17, 18, or 19 nucleotide sequence of one of the antisense sequences set forth in Table 12b. In some embodiments, the sense strand comprises at least a 15, 16, 17, 18, or 19 nucleotide sequence of a sense strand sequence as set forth in Table 12b.

In certain embodiments of this aspect of the invention, double-stranded short interfering nucleic acid (siNA) molecules are provided wherein the antisense stand comprises a modified sequence as set forth in Table 1c that has sequence complementarity to a target sequence of the invention. In some embodiments, the sense strand also comprises a modified sequence as set forth in Table 1c.

In certain embodiments, the present invention provides a double-stranded short interfering nucleic acid (siNA) molecule that modulates the expression of CTNNB1, wherein the siNA comprises a sense strand and an antisense strand; each strand is independently 15 to 30 nucleotides in length; and the antisense strand comprises at least 15, 16, 17, 18, or 19 nucleotides having sequence complementary to any of:

5′-CUGUUGGAUUGAUUCGAAA-3′; (SEQ ID NO: 5) 5′-ACGACUAGUUCAGUUGCUU-3′; (SEQ ID NO: 194) 5′-GGAUGAUCCUAGCUAUCGU-3′; (SEQ ID NO: 196) or 5′-CCAGGAUGAUCCUAGCUAU-3′. (SEQ ID NO: 151)

In some embodiments of the invention, the antisense strand of a siNA molecule comprises at least a 15, 16, 17, 18, or 19 nucleotide sequence of:

5′-UUUCGAAUCAAUCCAACAG-3′; (SEQ ID NO: 4918) 5′-AAGCAACUGAACUAGUCGU-3′; (SEQ ID NO: 5107) 5′-ACGAUAGCUAGGAUCAUCC-3′; (SEQ ID NO: 5109) or 5′-AUAGCUAGGAUCAUCCUGG-3′; (SEQ ID NO: 5064)

In some embodiments, the sense strand of a siNA molecule of the invention comprises at least a 15, 16, 17, 18, or 19 nucleotide sequence of:

5′-CUGUUGGAUUGAUUCGAAA-3′; (SEQ ID NO: 5) 5′-ACGACUAGUUCAGUUGCUU-3′; (SEQ ID NO: 194) 5′-GGAUGAUCCUAGCUAUCGU-3′; (SEQ ID NO: 196) or 5′-CCAGGAUGAUCCUAGCUAU-3′. (SEQ ID NO: 151)

In some embodiments, a siNA molecule of the invention comprises any of:

5′-CUGUUGGAUUGAUUCGAAA-3′ (SEQ ID NO: 5) and 5′-UUUCGAAUCAAUCCAACAG-3′; (SEQ ID NO: 4918) or 5′-ACGACUAGUUCAGUUGCUU-3′ (SEQ ID NO: 194) and 5′-AAGCAACUGAACUAGUCGU-3′; (SEQ ID NO: 5107) or 5′-GGAUGAUCCUAGCUAUCGU-3′ (SEQ ID NO: 196) and 5′-ACGAUAGCUAGGAUCAUCC-3′; (SEQ ID NO: 5109) or 5′-CCAGGAUGAUCCUAGCUAU-3′ (SEQ ID NO: 151) and 5′-AUAGCUAGGAUCAUCCUGG-3′. (SEQ ID NO: 5064)

In some embodiments, a siNA molecule of the invention comprises SEQ ID NOS: 6372 and 6374.

In some embodiments, a siNA molecule of the invention comprises SEQ ID NOS: 6370 and 6369.

In some embodiments, a siNA molecule of the invention comprises SEQ ID NOS: 2021 and 2068.

In some embodiments, a siNA molecule of the invention comprises SEQ ID NOS: 6372 and 6373.

In some embodiments, a siNA molecule of the invention comprises SEQ ID NOS: 2147 and 6368

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA) of         the invention;     -   (b) a cationic lipid compound having any of compound numbers         1-46 or any combination thereof;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA) of         the invention;     -   (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA)         having SEQ ID NOS: 6372 and 6374;     -   (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA)         having SEQ ID NOS: 6370 and 6369;     -   (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA)         having SEQ ID NOS: 2021 and 2068;     -   (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA)         having SEQ ID NOS: 6372 and 6373;     -   (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, the invention features a composition comprising:

-   -   (a) a double-stranded short interfering nucleic acid (siNA)         having SEQ ID NOS: 2147 and 6368;     -   (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine;     -   (c) cholesterol;     -   (d) DSPC; and     -   (e) PEG-DMG.

In some embodiments, a composition of the invention comprises any Cationic Lipid having any of compound numbers 1-46 in the following molar ratios:

Cationic Lipid/Cholesterol/PEG-DMG 56.6/38/5.4;

Cationic Lipid/Cholesterol/PEG-DMG 60/38/2;

Cationic Lipid/Cholesterol/PEG-DMG 67.3/29/3.7;

Cationic Lipid/Cholesterol/PEG-DMG 49.3/47/3.7;

Cationic Lipid/Cholesterol/PEG-DMG 50.3/44.3/5.4;

Cationic Lipid/Cholesterol/PEG-C-DMA/DSPC 40/48/2/10;

Cationic Lipid/Cholesterol/PEG-DMG/DSPC 40/48/2/10; and

Cationic Lipid/Cholesterol/PEG-DMG/DSPC 58/30/2/10.

In some embodiments, a composition of the invention comprises (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine, cholesterol, DSPC, and PEG-DMG, having a molar ratio of 50:30:10:2 respectively.

In some embodiments, a composition of the invention further comprises a cryo-protectant. In some embodiments, the cryoprotectant is Sucrose, Trehalose, Raffinose, Stachyose, Verbascose, Mannitol, Glucose, Lactose, Maltose, Maltotriose-heptaose, Dextran, Hydroxyethyl Starch, Insulin, Sorbitol, Glycerol, Arginine, Histidine, Lysine, Proline, Dimethylsulfoxide or any combination thereof. In some embodiments, the cryoprotectant is Sucrose. In some embodiments, the cryoprotectant is Trehalose. In some embodiments, the cryoprotectant is a combination of Sucrose and Trehalose.

In some embodiments of the invention, all of the nucleotides of siNAs of the invention are unmodified. In other embodiments, one or more (e.g., 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) of the nucleotide positions independently in either one or both strands of an siNA molecule are modified. Modifications include nucleic acid sugar modifications, base modifications, backbone (internucleotide linkage) modifications, non-nucleotide modifications, and/or any combination thereof. In certain instances, purine and pyrimidine nucleotides are differentially modified. For example, purine and pyrimidine nucleotides can be differentially modified at the 2′-sugar position (i.e., at least one purine has a different modification from at least one pyrimidine in the same or different strand at the 2′-sugar position). In certain instances the purines are unmodified in one or both strands, while the pyrimidines in one or both strands are modified. In certain other instances, the pyrimidines are unmodified in one or both strands, while the purines in one or both strands are modified. In some instances, at least one modified nucleotide is a 2′-deoxy-2′-fluoro nucleotide, a 2′-deoxy nucleotide, or a 2′-O-alkyl nucleotide. In some instances, at least 5 or more of the pyrimidine nucleotides in one or both stands are either all 2′-deoxy-2′-fluoro or all 2′-O-methylpyrimidine nucleotides. In some instances, at least 5 or more of the purine nucleotides in one or both stands are either all 2′-deoxy-2′-fluoro or all 2′-O-methyl purine nucleotides. In certain instances, wherein the siNA molecules comprise one or more modifications as described herein, the nucleotides at positions 1, 2, and 3 at the 5′ end of the guide (antisense) strand are unmodified.

In certain embodiments, the siNA molecules of the invention have 3′ overhangs of one, two, three, or four nucleotide(s) on one or both of the strands. In other embodiments, the siNA molecules lack overhangs (i.e., have blunt ends). Preferably, the siNA molecule has 3′ overhangs of two nucleotides on both the sense and antisense strands. The overhangs can be modified or unmodified. Examples of modified nucleotides in the overhangs include, but are not limited to, 2′-O-alkyl nucleotides, 2′-deoxy-2′-fluoro nucleotides, locked nucleic acid (LNA) nucleotides, or 2′-deoxy nucleotides. The overhang nucleotides in the antisense strand can comprise nucleotides that are complementary to nucleotides in the CTNNB1 target sequence. Likewise, the overhangs in the sense stand can comprise nucleotides that are in the CTNNB1 target sequence. In certain instances, the siNA molecules of the invention have two 3′ overhang nucleotides on the antisense stand that are 2′-O-alkyl (e.g., 2′-O-methyl) nucleotides and two 3′ overhang nucleotides on the sense stand that are 2′-deoxy nucleotides. In other instances, the siNA molecules of the invention have two 3′ overhang nucleotides that are 2′-O-alkyl (e.g., 2′-O-methyl) nucleotides on both the antisense stand and on the sense stand. In certain embodiments, the 2′-O-alkyl nucleotides are 2′-O-methyl uridine nucleotides. In certain instances, the overhangs also comprise one or more phosphorothioate linkages between nucleotides of the overhang.

In some embodiments, the siNA molecules of the invention have caps (also referred to herein as “terminal caps.” The cap can be present at the 5′-terminus (5′-cap) or at the 3′-terminus (3′-cap) or can be present on both termini, such as at the 5′ and 3′ termini of the sense strand of the siNA.

In some embodiments, the siNA molecules of the invention are phosphorylated at the 5′ end of the antisense strand. The phosphate group can be a phosphate, a diphosphate or a triphosphate.

The siNA molecules of the invention when double stranded can be symmetric or asymmetric. Each strand of these double stranded siNAs independently can range in nucleotide length between 3 and 30 nucleotides. Generally, each strand of the siNA molecules of the invention is about 15 to 30 (i.e., about 19, 20, 21, 22, 23 or 24) nucleotides in length.

The siNA molecules of the invention, which are double stranded or have a duplex structure, independently comprise about 3 to about 30 (e.g., about 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) base pairs. Generally, the duplex structure of siNAs of the invention is between 15 and 30, more generally between 18 and 25, yet more generally between 19 and 24, and most generally between 19 and 21 base pairs in length.

In certain embodiments, double-stranded short interfering nucleic acid (siNA) molecules are provided, wherein the molecule has a sense strand and an antisense strand and comprises formula (A):

-   -   wherein, the upper strand is the sense strand and the lower         strand is the antisense strand of the double-stranded nucleic         acid molecule; wherein the antisense strand comprises at least a         15, 16, 17, 18, or 19 nucleotide sequence of SEQ ID NO: 4918,         SEQ ID NO: 5107, SEQ ID NO: 5109, or SEQ ID NO: 5064, and the         sense strand comprises a sequence having complementarity to the         antisense strand;     -   each N is independently a nucleotide which is unmodified or         chemically modified or a non-nucleotide;     -   each B is a terminal cap that is present or absent;     -   (N) represents overhanging nucleotides, each of which is         independently unmodified or chemically modified;     -   [N] represents nucleotides that are ribonucleotides;     -   X1 and X2 are independently integers from 0 to 4;     -   X3 is an integer from 15 to 30;     -   X4 is an integer from 9 to 30; and     -   X5 is an integer from 0 to 6, provided that the sum of X4 and X5         is 15-30.

In one embodiment, the invention features a double-stranded short interfering nucleic acid (siNA) of formula (A); wherein

-   -   (a) one or more pyrimidine nucleotides in N_(X4) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof;     -   (b) one or more purine nucleotides in N_(X4) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof;     -   (c) one or more pyrimidine nucleotides in N_(X3) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof; and     -   (d) one or more purine nucleotides in N_(x3) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides,

The present invention further provides compositions comprising the double-stranded nucleic acid molecules described herein with optionally a pharmaceutically acceptable carrier or diluent.

The administration of the composition can be carried out by known methods, wherein the nucleic acid is introduced into a desired target cell in vitro or in vivo.

Commonly used techniques for introduction of the nucleic acid molecules of the invention into cells, tissues, and organisms include the use of various carrier systems, reagents and vectors. Non-limiting examples of such carrier systems suitable for use in the present invention include conjugates, nucleic-acid-lipid particles, lipid nanoparticles (LNP), liposomes, lipoplexes, micelles, virosomes, virus like particles (VLP), nucleic acid complexes, and mixtures thereof.

The compositions of the invention can be in the form of an aerosol, dispersion, solution (e.g., an injectable solution), a cream, ointment, tablet, powder, suspension or the like. These compositions may be administered in any suitable way, e.g. orally, sublingually, buccally, parenterally, nasally, or topically. In some embodiments, the compositions are aerosolized and delivered via inhalation.

The molecules and compositions of the present invention have utility over a broad range of therapeutic applications. Accordingly another aspect of this invention relates to the use of the compounds and compositions of the invention in treating a subject. The invention thus provides a method for treating a subject, such as a human, suffering from a condition which is mediated by the action, or by the loss of action, of CTNNB1, wherein the method comprises administering to the subject an effective amount of a double-stranded short interfering nucleic acid (siNA) molecule of the invention. In certain embodiments, the condition is cancer.

These and other aspects of the invention will be apparent upon reference to the following detailed description and attached figures. Moreover, it is contemplated that any method or composition described herein can be implemented with respect to any other method or composition described herein and that different embodiments may be combined.

Additionally, patents, patent applications, and other documents are cited throughout the specification to describe and more specifically set forth various aspects of this invention. Each of these references cited herein is hereby incorporated by reference in its entirety, including the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a non-limiting proposed mechanistic representation of target RNA degradation involved in RNAi. Double-stranded RNA (dsRNA), which is generated by RNA-dependent RNA polymerase (RdRP) from foreign single-stranded RNA, for example viral, transposon, or other exogenous RNA, activates the DICER enzyme that in turn generates siNA duplexes. Alternately, synthetic or expressed siNA can be introduced directly into a cell by appropriate means. An active siNA complex forms that recognizes a target RNA, resulting in degradation of the target RNA by the RISC endonuclease complex or in the synthesis of additional RNA by RNA-dependent RNA polymerase (RdRP), which can activate DICER and result in additional siNA molecules, thereby amplifying the RNAi response.

FIG. 2 shows non-limiting examples of chemically modified siNA constructs of the present invention using a generalized structure of a representative siNA duplex. The specific modifications shown in the figure can be utilized alone or in combination with other modifications of the figure, in addition to other modifications and features described herein with reference to any siNA molecule of the invention. In the figure, N stands for any nucleotide or optionally a non-nucleotide as described here. The upper strand, having B—N_(X3)—(N)_(X2)—B-3′ is the sense (or passenger) strand of the siNA, whereas the lower strand, having B(N)_(X1)—N_(X4)—[N]_(X5)-5′ is the antisense (or guide) strand of the siNA. Nucleotides (or optional non-nucleotides) of internal portions of the sense strand are designated N_(X3) and nucleotides (or optional non-nucleotides) of internal portions of the antisense strand are designated N_(X4). Nucleotides (or optional non-nucleotides) of the internal portions are generally base paired between the two strands, but can optionally lack base pairing (e.g. have mismatches or gaps) in some embodiments. Nucleotides (or optional non-nucleotides) of overhang regions are designated by parenthesis (N). Nucleotides of the 5′-terminal portion of the antisense strand are designated [N]. Terminal caps are optionally present at the 5′ and/or 3′ end of the sense strand and further optionally present at the 3′-end of the antisense strand. Generally, each strand can independently range from about 15 to about 30 nucleotides in length, but can vary depending on the presence of any overhang nucleotides. In certain embodiments, X1 and X2 are independently integers from 0 to 4; X3 is an integer from 15 to 30; X4 is an integer from 9 to 30; X5 is an integer from 0 to 6, provided that the sum of X4 and X5 is 15-30. Various modifications are shown for the nucleotides of the sense and antisense strands of the siNA constructs. The (N) overhang nucleotide positions can be chemically modified as described herein (e.g., 2′-O-methyl, 2′-deoxy-2′-fluoro, 2′-deoxy, LNA, universal bases etc.) and can be either derived from a corresponding target nucleic acid sequence or not. The constructs shown in the figure can also comprise phosphorothioate linkages as described herein. For example, phosphorothioate linkages can exist between any N, (N), and/or [N] positions. Such phosphorothioate incorporation can be utilized between purine “R” and pyrimidine “Y” positions, or for stabilization of pyrimidine linkages in general. Furthermore, although not depicted on the Figure, the constructs shown in the figure can optionally include a ribonucleotide at the 9^(th) position from the 5′-end of the sense strand or the 11^(th) position based on the 5′-end of the guide strand by counting 11 nucleotide positions in from the 5′-terminus of the guide strand. Similarly, the antisense strand can include a ribonucleotide at the 14^(th) position from the 5′-end, or alternately can be selected or designed so that a 2′-O-alkyl nucleotide (e.g., a 2′-O-methyl purine) is not present at this position. Furthermore, although not shown in the Figure, the 5′-terminal position of the antisense strand can comprise a terminal phosphate group as described herein. The antisense strand generally comprises sequence complementary to any target nucleic acid sequence of the invention, such as those set forth in Table 1a herein.

FIG. 3 shows non-limiting examples of certain combinations of modifications applied to the representative siNA duplex described in FIG. 2. The table shown below the representative structure provides specific combinations of (N)_(X1), (N)_(X2), N_(X3), N_(X4), and/or [N]_(X5) nucleotide (and optional non-nucleotide) positions. For example, combinations of 5 or more (e.g., 5, 6, 7, 8, 9, or 10 or more) N_(X3) and 5 or more (e.g., 5, 6, 7, 8, 9, or 10 or more) N_(X4) pyrimidine “Y” and purine “R” nucleotides are specified, each of which can independently have specific (N)_(X1), and/or (N)_(X2), substitutions as shown in the figure, in addition to optional phosphorothioate substitutions. The 5′-terminal antisense strand [N] nucleotides are generally ribonucleotides, but can also be modified or unmodified depending on if they are purine “R” or pyrimidine “Y” nucleotides

FIG. 4A-C shows non-limiting examples of different siNA constructs of the invention. The criteria of the representative structures shown in FIGS. 2 and 3 can be applied to any of the structures shown in FIG. 4A-C.

The examples shown in FIG. 4A (constructs 1, 2, and 3) have 19 representative base pairs; however, different embodiments of the invention include any number of base pairs described herein. Bracketed regions represent nucleotide overhangs, for example, comprising about 1, 2, 3, or 4 nucleotides in length, preferably about 2 nucleotides. Constructs 1 and 2 can be used independently for RNAi activity. Construct 2 can comprise a polynucleotide or non-nucleotide linker, which can optionally be designed as a biodegradable linker. In one embodiment, the loop structure shown in construct 2 can comprise a biodegradable linker that results in the formation of construct 1 in vivo and/or in vitro. In another example, construct 3 can be used to generate construct 2 under the same principle wherein a linker is used to generate the active siNA construct 2 in vivo and/or in vitro, which can optionally utilize another biodegradable linker to generate the active siNA construct 1 in vivo and/or in vitro. As such, the stability and/or activity of the siNA constructs can be modulated based on the design of the siNA construct for use in vivo or in vitro and/or in vitro.

The examples shown in FIG. 4B represent different variations of double-stranded nucleic acid molecule of the invention, such as microRNA, that can include overhangs, bulges, loops, and stem-loops resulting from partial complementarity. Such motifs having bulges, loops, and stem-loops are generally characteristics of miRNA. The bulges, loops, and stem-loops can result from any degree of partial complementarity, such as mismatches or bulges of about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more nucleotides in one or both strands of the double-stranded nucleic acid molecule of the invention.

The example shown in FIG. 4C represents a model double-stranded nucleic acid molecule of the invention comprising a 19 base pair duplex of two 21 nucleotide sequences having dinucleotide 3′-overhangs. The top strand (1) represents the sense strand (passenger strand), the middle strand (2) represents the antisense (guide strand), and the lower strand (3) represents a target polynucleotide sequence. The dinucleotide overhangs (NN) can comprise a sequence derived from the target polynucleotide. For example, the 3′-(NN) sequence in the guide strand can be complementary to the 5′-[NN] sequence of the target polynucleotide. In addition, the 5′-(NN) sequence of the passenger strand can comprise the same sequence as the 5′-[NN] sequence of the target polynucleotide sequence. In other embodiments, the overhangs (NN) are not derived from the target polynucleotide sequence, for example where the 3′-(NN) sequence in the guide strand are not complementary to the 5′-[NN] sequence of the target polynucleotide and the 5′-(NN) sequence of the passenger strand can comprise different sequence from the 5′-[NN] sequence of the target polynucleotide sequence. In additional embodiments, any (NN) nucleotides are chemically modified, e.g., as 2′-O-methyl, 2′-deoxy-2′-fluoro, and/or other modifications herein. Furthermore, the passenger strand can comprise a ribonucleotide position N of the passenger strand. For the representative 19 base pair 21 mer duplex shown, position N can be 9 nucleotides in from the 3′ end of the passenger strand. However, in duplexes of differing length, the position N is determined based on the 5′-end of the guide strand by counting 11 nucleotide positions in from the 5′-terminus of the guide strand and picking the corresponding base paired nucleotide in the passenger strand. Cleavage by Ago2 takes place between positions 10 and 11 as indicated by the arrow. In additional embodiments, there are two ribonucleotides, NN, at positions 10 and 11 based on the 5′-end of the guide strand by counting 10 and 11 nucleotide positions in from the 5′-terminus of the guide strand and picking the corresponding base paired nucleotides in the passenger strand.

FIG. 5 shows non-limiting examples of different stabilization chemistries (1-10) that can be used, for example, to stabilize the 5′ and/or 3′-ends of siNA sequences of the invention, including (1) [3-3′]-inverted deoxyribose; (2) deoxyribonucleotide; (3) [5′-3′]-3′-deoxyribonucleotide; (4) [5′-3]-ribonucleotide; (5) [5′-3]-3′-O-methyl ribonucleotide; (6) 3′-glyceryl; (7) [3′-5]-3′-deoxyribonucleotide; (8) [3′-3]-deoxyribonucleotide; (9) [5′-2′]-deoxyribonucleotide; and (10) [5-3′]-dideoxyribonucleotide (when X═O). In addition to modified and unmodified backbone chemistries indicated in the figure, these chemistries can be combined with different sugar and base nucleotide modifications as described herein.

FIG. 6 shows a non-limiting example of a strategy used to identify chemically modified siNA constructs of the invention that are nuclease resistant while preserving the ability to mediate RNAi activity. Chemical modifications are introduced into the siNA construct based on educated design parameters (e.g. introducing 2′-modifications, base modifications, backbone modifications, terminal cap modifications etc). The modified construct is tested in an appropriate system (e.g., human serum for nuclease resistance, shown, or an animal model for PK/delivery parameters). In parallel, the siNA construct is tested for RNAi activity, for example in a cell culture system such as a luciferase reporter assay and/or against endogenous mRNA). Lead siNA constructs are then identified which possess a particular characteristic while maintaining RNAi activity, and can be further modified and assayed once again. This same approach can be used to identify siNA-conjugate molecules with improved pharmacokinetic profiles, delivery, and RNAi activity.

FIG. 7 shows non-limiting examples of phosphorylated siNA molecules of the invention, including linear and duplex constructs and asymmetric derivatives thereof.

FIG. 8 shows non-limiting examples of chemically modified terminal phosphate groups of the invention.

FIG. 9 shows a non-limiting example of a cholesterol linked phosphoramidite that can be used to synthesize cholesterol conjugated siNA molecules of the invention. An example is shown with the cholesterol moiety linked to the 5′-end of the sense strand of an siNA molecule.

FIG. 10 depicts an embodiment of 5′ and 3′ inverted abasic cap linked to a nucleic acid strand.

DETAILED DESCRIPTION OF THE INVENTION A. Terms and Definitions

The following terminology and definitions apply as used in the present application.

The term “abasic” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to sugar moieties lacking a nucleobase or having a hydrogen atom (H) or other non-nucleobase chemical groups in place of a nucleobase at the 1′ position of the sugar moiety, see for example Adamic et al., U.S. Pat. No. 5,998,203. In one embodiment, an abasic moiety of the invention is a ribose, deoxyribose, or dideoxyribose sugar.

The term “acyclic nucleotide” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to any nucleotide having an acyclic ribose sugar, for example where any of the ribose carbon/carbon or carbon/oxygen bonds are independently or in combination absent from the nucleotide.

The term “alkyl” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to a saturated or unsaturated hydrocarbons, including straight-chain, branched-chain, alkenyl, alkynyl groups and cyclic groups, but excludes aromatic groups. Notwithstanding the foregoing, alkyl also refers to non-aromatic heterocyclic groups. Preferably, the alkyl group has 1 to 12 carbons. More preferably, it is a lower alkyl of from 1 to 7 carbons, more preferably 1 to 4 carbons. The alkyl group can be substituted or unsubstituted. When substituted, the substituted group(s) is preferably, hydroxyl, halogen, cyano, C1-C4 alkoxy, ═O, ═S, NO₂, SH, NH₂, or NR₁R₂, where R₁ and R₂ independently are H or C1-C4 alkyl.

The phrase “agents that interfere with cell cycle checkpoints” refers to compounds that inhibit protein kinases that transduce cell cycle checkpoint signals, thereby sensitizing the cancer cell to DNA damaging agents.

The phrase “agents that interfere with receptor tyrosine kinases (RTKs)” refers to compounds that inhibit RTKs and therefore inhibit mechanisms involved in oncogenesis and tumor progression.

The phrase “androgen receptor modulators” refers to compounds that interfere or inhibit the binding of androgens to the receptor, regardless of mechanism.

The phrase “angiogenesis inhibitors” refers to compounds that inhibit the formation of new blood vessels, regardless of mechanism.

The term “aryl” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to an aromatic group that has at least one ring having a conjugated pi electron system and includes carbocyclic aryl, heterocyclic aryl and biaryl groups, all of which can be optionally substituted. The preferred substituent(s) of aryl groups are halogen, trihalomethyl, hydroxyl, SH, OH, cyano, C1-C4 alkoxy, C1-C4 alkyl, C2-C4 alkenyl, C2-C4 alkynyl, NH₂, and NR₁R₂ groups, where R₁ and R₂ independently are H or C1-C4 alkyl.

The term “alkylaryl” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to an alkyl group (as described above) covalently joined to an aryl group (as described above). Carbocyclic aryl groups are groups wherein the ring atoms on the aromatic ring are all carbon atoms. The carbon atoms are optionally substituted. Heterocyclic aryl groups are groups having from 1 to 3 heteroatoms as ring atoms in the aromatic ring and the remainder of the ring atoms are carbon atoms. Suitable heteroatoms include oxygen, sulfur, and nitrogen, and examples of heterocyclic aryl groups having such heteroatoms include furanyl, thienyl, pyridyl, pyrrolyl, N-lower alkyl pyrrolo, pyrimidyl, pyrazinyl, imidazolyl and the like, all optionally substituted. Preferably, the alkyl group is a C1-C4 alkyl group.

The term “amide” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to an —C(O)—NH—R, where R is either alkyl, aryl, alkylaryl or hydrogen.

The phrase “antisense region” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to a nucleotide sequence of an siNA molecule having complementarity to a target nucleic acid sequence. In addition, the antisense region of an siNA molecule can optionally comprise a nucleic acid sequence having complementarity to a sense region of the siNA molecule. In one embodiment, the antisense region of the siNA molecule is referred to as the antisense strand or guide strand.

The phrase “asymmetric hairpin” refers to a linear siNA molecule comprising an antisense region, a loop portion that can comprise nucleotides or non-nucleotides, and a sense region that comprises fewer nucleotides than the antisense region to the extent that the sense region has enough complementary nucleotides to base pair with the antisense region and form a duplex with loop. For example, an asymmetric hairpin siNA molecule of the invention can comprise an antisense region having length sufficient to mediate RNAi in a cell or in vitro system (e.g. about 15 to about 30, or about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30 nucleotides) and a loop region comprising about 4 to about 12 (e.g., about 4, 5, 6, 7, 8, 9, 10, 11, or 12) nucleotides, and a sense region having about 3 to about 25 (e.g., about 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25) nucleotides that are complementary to the antisense region. The asymmetric hairpin siNA molecule can also comprise a 5′-terminal phosphate group that can be chemically modified. The loop portion of the asymmetric hairpin siNA molecule can comprise nucleotides, non-nucleotides, linker molecules, or conjugate molecules as described herein.

The term “biodegradable” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to degradation in a biological system, for example, enzymatic degradation or chemical degradation.

The term “biodegradable linker” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to a linker molecule that is designed to connect one molecule to another molecule, and which is susceptible to degradation in a biological system. The linker can be a nucleic acid or non-nucleic acid based linker. For example, a biodegradable linker can be used to attach a ligand or biologically active molecule to an siNA molecule of the invention. Alternately, a biodegradable linker can be used to connect the sense and antisense strands of an siNA molecule of the invention. The biodegradable linker is designed such that its stability can be modulated for a particular purpose, such as delivery to a particular tissue or cell type. The stability of a nucleic acid-based biodegradable linker molecule can be modulated by using various chemistries, for example combinations of ribonucleotides, deoxyribonucleotides, and chemically modified nucleotides, such as 2′-O-methyl, 2′-fluoro, 2′-amino, 2′-O-amino, 2′-C-allyl, 2′-O-allyl, and other 2′-modified or base modified nucleotides. The biodegradable nucleic acid linker molecule can be a dimer, trimer, tetramer or longer nucleic acid molecule, for example, an oligonucleotide of about 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, or 20 nucleotides in length, or can comprise a single nucleotide with a phosphorus-based linkage, for example, a phosphoramidate or phosphodiester linkage. The biodegradable nucleic acid linker molecule can also comprise nucleic acid backbone, nucleic acid sugar, or nucleic acid base modifications.

The phrase “biologically active molecule” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to compounds or molecules that are capable of eliciting or modifying a biological response in a system and/or are capable of modulating the pharmacokinetics and/or pharmacodynamics of other biologically active molecules. Examples of biologically active molecules, include siNA molecules alone or in combination with other molecules including, but not limited to therapeutically active molecules such as antibodies, cholesterol, hormones, antivirals, peptides, proteins, chemotherapeutics, small molecules, vitamins, co-factors, nucleosides, nucleotides, oligonucleotides, enzymatic nucleic acids, antisense nucleic acids, triplex forming oligonucleotides, polyamines, polyamides, polyethylene glycol, other polyethers, 2-5A chimeras, siNA, dsRNA, allozymes, aptamers, decoys and analogs thereof.

The phrase “biological system” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to material, in a purified or unpurified form, from biological sources including, but not limited to, human or animal, wherein the system comprises the components required for RNAi activity. Thus, the phrase includes, for example, a cell, tissue, subject, or organism, or extract thereof. The term also includes reconstituted material from a biological source.

The phrase “blunt end” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to termini of a double-stranded siNA molecule having no overhanging nucleotides. For example, the two strands of a double-stranded siNA molecule having blunt ends align with each other with matched base-pairs without overhanging nucleotides at the termini. A siNA duplex molecule of the invention can comprise blunt ends at one or both termini of the duplex, such as termini located at the 5′-end of the antisense strand, the 5′-end of the sense strand, or both termini of the duplex.

The term “cap” also referred to herein as “terminal cap,” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to a moiety, which can be a chemically modified nucleotide or non-nucleotide that can be incorporated at one or more termini of one or more nucleic acid molecules of the invention. These terminal modifications protect the nucleic acid molecule from exonuclease degradation, and can help in delivery and/or localization within a cell. The cap can be present at the 5′-terminus (5′-cap) or at the 3′-terminal (3′-cap) or can be present on both termini of any nucleic acid molecule of the invention. A cap can be present at the 5′-end, 3-end and/or 5′ and 3′-ends of the sense strand of a nucleic acid molecule of the invention. Additionally, a cap can optionally be present at the 3′-end of the antisense strand of a nucleic acid molecule of the invention. In non-limiting examples, the 5′-cap includes, but is not limited to, LNA; glyceryl; inverted deoxy abasic residue (moiety); 4′,5′-methylene nucleotide; 1-(beta-D-erythrofuranosyl) nucleotide, 4′-thio nucleotide; carbocyclic nucleotide; 1,5-anhydrohexitol nucleotide; L-nucleotides; alpha-nucleotides; modified base nucleotide; phosphorodithioate linkage; threo-pentofuranosyl nucleotide; acyclic 3′,4′-seco nucleotide; acyclic 3,4-dihydroxybutyl nucleotide; acyclic 3,5-dihydroxypentyl nucleotide; 3′-3′-inverted nucleotide moiety; 3′-3′-inverted abasic moiety; 3′-2′-inverted nucleotide moiety; 3′-2′-inverted abasic moiety; 1,4-butanediol phosphate; 3′-phosphoramidate; hexylphosphate; aminohexyl phosphate; 3′-phosphate; 3′-phosphorothioate; phosphorodithioate; or bridging or non-bridging methylphosphonate moiety. Non-limiting examples of the 3′-cap include, but are not limited to, LNA; glyceryl; inverted deoxy abasic residue (moiety); 4′,5′-methylene nucleotide; 1-(beta-D-erythrofuranosyl) nucleotide; 4′-thio nucleotide; carbocyclic nucleotide; 5′-amino-alkyl phosphate; 1,3-diamino-2-propyl phosphate; 3-aminopropyl phosphate; 6-aminohexyl phosphate; 1,2-aminododecyl phosphate; hydroxypropyl phosphate; 1,5-anhydrohexitol nucleotide; L-nucleotide; alpha-nucleotide; modified base nucleotide; phosphorodithioate; threo-pentofuranosyl nucleotide; acyclic 3′,4′-seco nucleotide; 3,4-dihydroxybutyl nucleotide; 3,5-dihydroxypentyl nucleotide, 5′-5′-inverted nucleotide moiety; 5′-5′-inverted abasic moiety; 5′-phosphoramidate; 5′-phosphorothioate; 1,4-butanediol phosphate; 5′-amino; bridging and/or non-bridging 5′-phosphoramidate; phosphorothioate and/or phosphorodithioate; bridging or non bridging methylphosphonate; and 5′-mercapto moieties (for more details see Beaucage and Iyer, 1993, Tetrahedron 49, 1925; incorporated by reference herein). FIG. 5 shows some non-limiting examples of various caps.

The term “cell” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term is used in its usual biological sense, and does not refer to an entire multicellular organism, e.g., specifically does not refer to a human being. The cell can be present in an organism, e.g., birds, plants and mammals, such as humans, cows, sheep, apes, monkeys, swine, dogs, and cats. The cell can be prokaryotic (e.g., bacterial cell) or eukaryotic (e.g., mammalian or plant cell). The cell can be of somatic or germ line origin, totipotent or pluripotent, dividing or non-dividing. The cell can also be derived from or can comprise a gamete or embryo, a stem cell, or a fully differentiated cell.

The phrase “chemical modification” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to any modification of the chemical structure of the nucleotides that differs from nucleotides of native siRNA or RNA in general. The term “chemical modification” encompasses the addition, substitution, or modification of native siRNA or RNA at the sugar, base, or internucleotide linkage, as described herein or as is otherwise known in the art. In certain embodiments, the term “chemical modification” can refer to certain forms of RNA that are naturally occurring in certain biological systems, for example 2′-O-methyl modifications or inosine modifications.

The term “CTNNB1” refers to catenin (cadherin-associated protein), beta 1 which is gene that encodes CTNNB1 proteins, CTNNB1 peptides, CTNNB1 polypeptides, CTNNB1 regulatory polynucleotides (e.g., CTNNB1 miRNAs and siNAs), mutant CTNNB1 genes, and splice variants of a CTNNB1 genes, as well as other genes involved in CTNNB1 pathways of gene expression and/or activity. Thus, each of the embodiments described herein with reference to the term “CTNNB1” are applicable to all of the protein, peptide, polypeptide, and/or polynucleotide molecules covered by the term “CTNNB1”, as that term is defined herein. Comprehensively, such gene targets are also referred to herein generally as “target” sequences (including the target sequences listed in Table 1a).

The term “complementarity” or “complementary” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the terms generally refer to the formation or existence of hydrogen bond(s) between one nucleic acid sequence and another nucleic acid sequence by either traditional Watson-Crick or other non-traditional types of bonding as described herein. In reference to the nucleic molecules of the present invention, the binding free energy for a nucleic acid molecule with its complementary sequence is sufficient to allow the relevant function of the nucleic acid to proceed, e.g., RNAi activity. Determination of binding free energies for nucleic acid molecules is well known in the art (see, e.g., Turner et al., 1987, CSH Symp. Quant. Biol. LII pp. 123-133; Frier et al., 1986, Proc. Nat. Acad. Sci. USA 83:9373-9377; Turner et al., 1987, J. Am. Chem. Soc. 109:3783-3785). Perfect complementary means that all the contiguous residues of a nucleic acid sequence will hydrogen bond with the same number of contiguous residues in a second nucleic acid sequence. Partial complementarity can include various mismatches or non-based paired nucleotides (e.g., 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more mismatches, non-nucleotide linkers, or non-based paired nucleotides) within the nucleic acid molecule, which can result in bulges, loops, or overhangs that result between the sense strand or sense region and the antisense strand or antisense region of the nucleic acid molecule or between the antisense strand or antisense region of the nucleic acid molecule and a corresponding target nucleic acid molecule. Such partial complementarity can be represented by a % complementarity that is determined by the number of non-base paired nucleotides, i.e., about 50%, 60%, 70%, 80%, 90% etc. depending on the total number of nucleotides involved. Such partial complementarity is permitted to the extent that the nucleic acid molecule (e.g., siNA) maintains its function, for example the ability to mediate sequence specific RNAi.

The terms “composition” or “formulation” as used herein refer to their generally accepted meaning in the art. These terms generally refer to a composition or formulation, such as in a pharmaceutically acceptable carrier or diluent, in a form suitable for administration, e.g., systemic or local administration, into a cell or subject, including, for example, a human. Suitable forms, in part, depend upon the use or the route of entry, for example oral, transdermal, inhalation, or by injection. Such forms should not prevent the composition or formulation from reaching a target cell (i.e., a cell to which the negatively charged nucleic acid is desirable for delivery). For example, compositions injected into the blood stream should be soluble. Other factors are known in the art, and include considerations such as toxicity and forms that prevent the composition or formulation from exerting its effect. As used herein, pharmaceutical formulations include formulations for human and veterinary use. Non-limiting examples of agents suitable for formulation with the nucleic acid molecules of the instant invention include: Lipid Nanoparticles (see for example Semple et al., 2010, Nat. Biotechnol., February; 28(2):172-6.); P-glycoprotein inhibitors (such as Pluronic P85); biodegradable polymers, such as poly (DL-lactide-coglycolide) microspheres for sustained release delivery (Emerich, D F et al, 1999, Cell Transplant, 8, 47-58); and loaded nanoparticles, such as those made of polybutylcyanoacrylate. Other non-limiting examples of delivery strategies for the nucleic acid molecules of the instant invention include material described in Boado et al., 1998, J. Pharm. Sci., 87, 1308-1315; Tyler et al., 1999, FEBS Lett., 421, 280-284; Pardridge et al., 1995, PNAS USA., 92, 5592-5596; Boado, 1995, Adv. Drug Delivery Rev., 15, 73-107; Aldrian-Herrada et al., 1998, Nucleic Acids Res., 26, 4910-4916; and Tyler et al., 1999, PNAS USA., 96, 7053-7058. A “pharmaceutically acceptable composition” or “pharmaceutically acceptable formulation” can refer to a composition or formulation that allows for the effective distribution of the nucleic acid molecules of the instant invention to the physical location most suitable for their desired activity.

The phrase “cytotoxic/cytostatic agents” refer to compounds that cause cell death or inhibit cell proliferation primarily by interfering directly with the cell's functioning or inhibit or interfere with cell mytosis, including alkylating agents, tumor necrosis factors, intercalators, hypoxia activatable compounds, microtubule inhibitors/microtubule-stabilizing agents, inhibitors of mitotic kinesins, inhibitors of histone deacetylase, inhibitors of kinases involved in mitotic progression, antimetabolites; biological response modifiers; hormonal/anti-hormonal therapeutic agents, hematopoietic growth factors, monoclonal antibody targeted therapeutic agents, topoisomerase inhibitors, proteasome inhibitors and ubiquitin ligase inhibitors.

The phrase “estrogen receptor modulators” refers to compounds that interfere with or inhibit the binding of estrogen to the receptor, regardless of mechanism.

The term “gene” or “target gene” as used herein refers to their meaning as is generally accepted in the art. The terms generally refer a nucleic acid (e.g., DNA or RNA) sequence that comprises partial length or entire length coding sequences necessary for the production of a polypeptide. The target gene can also include the UTR or non-coding region of the nucleic acid sequence. A gene or target gene can also encode a functional RNA (fRNA) or non-coding RNA (ncRNA), such as small temporal RNA (stRNA), micro RNA (miRNA), small nuclear RNA (snRNA), short interfering RNA (siRNA), small nucleolar RNA (snRNA), ribosomal RNA (rRNA), transfer RNA (tRNA) and precursor RNAs thereof. Such non-coding RNAs can serve as target nucleic acid molecules for siNA mediated RNA interference in modulating the activity of fRNA or ncRNA involved in functional or regulatory cellular processes. Aberrant fRNA or ncRNA activity leading to disease can therefore be modulated by siNA molecules of the invention. siNA molecules targeting fRNA and ncRNA can also be used to manipulate or alter the genotype or phenotype of a subject, organism or cell, by intervening in cellular processes such as genetic imprinting, transcription, translation, or nucleic acid processing (e.g., transamination, methylation etc.). The target gene can be a gene derived from a cell, an endogenous gene, a transgene, or exogenous genes such as genes of a pathogen, for example a virus, which is present in the cell after infection thereof. The cell containing the target gene can be derived from or contained in any organism, for example a plant, animal, protozoan, virus, bacterium, or fungus. Non-limiting examples of plants include monocots, dicots, or gymnosperms. Non-limiting examples of animals include vertebrates or invertebrates. Non-limiting examples of fungi include molds or yeasts. For a review, see for example Snyder and Gerstein, 2003, Science, 300, 258-260.

The phrase “HMG-CoA reductase inhibitors” refers to inhibitors of 3-hydroxy-3-methylglutaryl-CoA reductase. The term HMG-CoA reductase inhibitor as used herein includes all pharmaceutically acceptable lactone and open-acid forms (i.e., where the lactone ring is opened to form the free acid) as well as salt and ester forms of compounds that have HMG-CoA reductase inhibitory activity, and therefore the use of such salts, esters, open-acid and lactone forms is included within the scope of this invention.

The phrase “homologous sequence” as used herein refers to its meaning as is generally accepted in the art. The term generally refers a nucleotide sequence that is shared by one or more polynucleotide sequences, such as genes, gene transcripts and/or non-coding polynucleotides. For example, a homologous sequence can be a nucleotide sequence that is shared by two or more genes encoding related but different proteins, such as different members of a gene family, different protein epitopes, different protein isoforms or completely divergent genes. A homologous sequence can be a nucleotide sequence that is shared by two or more non-coding polynucleotides, such as noncoding DNA or RNA, regulatory sequences, introns, and sites of transcriptional control or regulation. Homologous sequences can also include sequence regions shared by more than one polynucleotide sequence. Homology does not need to be perfect identity (100%), as partially homologous sequences are also contemplated by and within the scope of the instant invention (e.g., at least 95%, 94%, 93%, 92%, 91%, 90%, 89%, 88%, 87%, 86%, 85%, 84%, 83%, 82%, 81%, 80% etc.). Percent homology is the number of matching nucleotides between two sequences divided by the total length being compared, multiplied by 100.

The phrase “improved RNAi activity” refers to an increase in RNAi activity measured in vitro and/or in vivo, where the RNAi activity is a reflection of both the ability of the siNA to mediate RNAi and the stability of the siNAs of the invention. In this invention, the product of these activities can be increased in vitro and/or in vivo compared to an all RNA siNA or an siNA containing a plurality of ribonucleotides. In some cases, the activity or stability of the siNA molecule can be decreased (i.e., less than ten-fold), but the overall activity of the siNA molecule is enhanced in vitro and/or in vivo.

The terms “inhibit,” “down-regulate,” or “reduce” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term generally refers the reduction in the expression of the gene, or level of RNA molecules or equivalent RNA molecules encoding one or more proteins or protein subunits, or activity of one or more proteins or protein subunits, below that observed in the absence of the nucleic acid molecules (e.g., siNA) of the invention. Down-regulation can also be associated with post-transcriptional silencing, such as, RNAi mediated cleavage or by alteration in DNA methylation patterns or DNA chromatin structure. Inhibition, down-regulation or reduction with an siNA molecule can be in reference to an inactive molecule, an attenuated molecule, an siNA molecule with a scrambled sequence, or an siNA molecule with mismatches or alternatively, it can be in reference to the system in the absence of the nucleic acid.

The phrase “inhibitors of cell proliferation and survival signaling pathway” refers to pharmaceutical agents that inhibit cell surface receptors and signal transduction cascades downstream of those surface receptors.

The term “integrin blockers” refers to compounds which selectively antagonize, inhibit or counteract binding of a physiological ligand to the α _(ω) β₃ integrin, to compounds which selectively antagonize, inhibit or counteract binding of a physiological ligand to the α _(ω) β₅ integrin, to compounds which antagonize, inhibit or counteract binding of a physiological ligand to both the α _(ω) β₃ integrin and the α _(ω) β₅ integrin, and to compounds which antagonize, inhibit or counteract the activity of the particular integrin(s) expressed on capillary endothelial cells. The term also refers to antagonists of the α _(ω) β.₆ α _(ω) β.₈ α₁β.₁ α₂β.₁ α₅β.₁ α₆β₁ and α₆β₄ integrins. The term also refers to antagonists of any combination of α _(ω) β₃, α _(ω) β₅, α _(ω) β.₆ α _(ω) β.₈ α₁β.₁ α₂β.₁ α₅β.₁ α₆β₁ and α₆β₄ integrins.

The terms “intermittent” or “intermittently” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to periodic stopping and starting at either regular or irregular intervals.

The terms “internucleoside linkage” or “internucleoside linker” or “internucleotide linkage” or “internucleotide linker” are used herein interchangeably and refer to any linker or linkage between two nucleoside units, as is known in the art, including, for example, but not limitation, phosphate, analogs of phosphate, phosphonate, guanidium, hydroxylamine, hydroxylhydrazinyl, amide, carbamate, alkyl, and substituted alkyl linkages. The internucleoside linkages constitute the backbone of a nucleic acid molecule.

The terms “mammalian” or “mammal” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to any warm blooded vertebrate species, such as a human, mouse, rat, dog, cat, hamster, guinea pig, rabbit, livestock, and the like.

The phrase “metered dose inhaler” or MDI refers to a unit comprising a can, a secured cap covering the can and a formulation metering valve situated in the cap. MDI systems includes a suitable channeling device. Suitable channeling devices comprise for example, a valve actuator and a cylindrical or cone-like passage through which medicament can be delivered from the filled canister via the metering valve to the nose or mouth of a patient such as a mouthpiece actuator.

The term “microRNA” or “miRNA” as used herein refers to its meaning as is generally accepted in the art. The term generally refers a small double-stranded RNA that regulates the expression of target messenger RNAs either by mRNA cleavage, translational repression/inhibition or heterochromatic silencing (see for example Ambros, 2004, Nature, 431, 350-355; Bartel, 2004, Cell, 116, 281-297; Cullen, 2004, Virus Research., 102, 3-9; He et al., 2004, Nat. Rev. Genet., 5, 522-531; Ying et al., 2004, Gene, 342, 25-28; and Sethupathy et al., 2006, RNA, 12:192-197).

The term “modulate” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to when the expression of a gene, or level of one or more RNA molecules (coding or non-coding), or activity of one or more RNA molecules or proteins or protein subunits, is up-regulated or down-regulated, such that expression, level, or activity is greater than or less than that observed in the absence of the molecule that effects modulation. For example, the term “modulate” in some embodiments can refer to inhibition and in other embodiments can refer to potentiation or up-regulation, e.g., of gene expression.

The phrase “modified nucleotide” as used herein refers to its meaning as is generally accepted in the art. The term generally refers a nucleotide, which contains a modification in the chemical structure of the base, sugar and/or phosphate of the unmodified (or natural) nucleotide as is generally known in the art. Non-limiting examples of modified nucleotides are described herein and in U.S. application Ser. No. 12/064,014.

The phrase “NSAIDs that are selective COX-2 inhibitors” for purposes herein, refers to NSAIDs, which possess a specificity for inhibiting COX-2 over COX-1 of at least 100 fold as measured by the ratio of IC₅₀ for COX-2 over IC₅₀ for COX-1 evaluated by cell or microsomal assays.

The phrase “non-base paired” refers to nucleotides that are not base paired between the sense strand or sense region and the antisense strand or antisense region of an double-stranded siNA molecule; and can include for example, but not limitation, mismatches, overhangs, single stranded loops, etc.

The term “non-nucleotide” refers to any group or compound which can be incorporated into a nucleic acid chain in the place of one or more nucleotide units, such as for example but not limitation abasic moieties or alkyl chains. The group or compound is “abasic” in that it does not contain a commonly recognized nucleotide base, such as adenosine, guanine, cytosine, uracil or thymine and therefore lacks a nucleobase at the 1′-position.

The term “nucleotide” is used as is generally recognized in the art. Nucleotides generally comprise a nucleobase, a sugar, and an internucleoside linkage, e.g., a phosphate. The base can be a natural bases (standard), modified bases, or a base analog, as are well known in the art. Such bases are generally located at the 1′ position of a nucleotide sugar moiety. Additionally, the nucleotides can be unmodified or modified at the sugar, internucleoside linkage, and/or base moiety, (also referred to interchangeably as nucleotide analogs, modified nucleotides, non-natural nucleotides, non-standard nucleotides and others; see, for example, U.S. application Ser. No. 12/064,014.

The term “overhang” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary double stranded nucleic acid molecules, the term generally refers to the terminal portion of a nucleotide sequence that is not base paired between the two strands of a double-stranded nucleic acid molecule (see for example, FIG. 4). Overhangs, when present, are typically at the 3′-end of one or both strands in a siNA duplex.

The term “parenteral” as used herein refers to its meaning as is generally accepted in the art. The term generally refers methods or techniques of administering a molecule, drug, agent, or compound in a manner other than through the digestive tract, and includes epicutaneous, subcutaneous, intravascular (e.g., intravenous), intramuscular, or intrathecal injection or infusion techniques and the like.

The phrase “pathway target” refers to any target involved in pathways of gene expression or activity. For example, any given target can have related pathway targets that can include upstream, downstream, or modifier genes in a biologic pathway. These pathway target genes can provide additive or synergistic effects in the treatment of diseases, conditions, and traits herein.

The term “phosphorothioate” refers to an internucleotide phosphate linkage comprising one or more sulfur atoms in place of an oxygen atom. Hence, the term phosphorothioate refers to both phosphorothioate and phosphorodithioate internucleotide linkages.

“Prenyl-protein transferase inhibitor” refers to a compound that inhibits any one or any combination of the prenyl-protein transferase enzymes, including farnesyl-protein transferase (FPTase), geranylgeranyl-protein transferase type I (GGPTase-I), and geranylgeranyl-protein transferase type-II (GGPTase-II, also called Rab GGPTase).

The phrase “retinoid receptor modulators” refers to compounds that interfere or inhibit the binding of retinoids to the receptor, regardless of mechanism.

The term “ribonucleotide” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to a nucleotide with a hydroxyl group at the 2′ position of a β-D-ribofuranose moiety.

The term “RNA” as used herein refers to its generally accepted meaning in the art. Generally, the term RNA refers to a molecule comprising at least one ribofuranoside moiety. The term can include double-stranded RNA, single-stranded RNA, isolated RNA such as partially purified RNA, essentially pure RNA, synthetic RNA, recombinantly produced RNA, as well as altered RNA that differs from naturally occurring RNA by the addition, deletion, substitution and/or alteration of one or more nucleotides. Such alterations can include addition of non-nucleotide material, such as to the end(s) of the siNA or internally, for example at one or more nucleotides of the RNA. Nucleotides in the RNA molecules of the instant invention can also comprise non-standard nucleotides, such as non-naturally occurring nucleotides or chemically synthesized nucleotides or deoxynucleotides. These altered RNAs can be referred to as analogs or analogs of naturally-occurring RNA.

The phrase “RNA interference” or term “RNAi” refer to the biological process of inhibiting or down regulating gene expression in a cell, as is generally known in the art, and which is mediated by short interfering nucleic acid molecules, see for example Zamore and Haley, 2005, Science, 309, 1519-1524; Vaughn and Martienssen, 2005, Science, 309, 1525-1526; Zamore et al., 2000, Cell, 101, 25-33; Bass, 2001, Nature, 411, 428-429; Elbashir et al., 2001, Nature, 411, 494-498; and Kreutzer et al., International PCT Publication No. WO 00/44895; Zernicka-Goetz et al., International PCT Publication No. WO 01/36646; Fire, International PCT Publication No. WO 99/32619; Plaetinck et al., International PCT Publication No. WO 00/01846; Mello and Fire, International PCT Publication No. WO 01/29058; Deschamps-Depaillette, International PCT Publication No. WO 99/07409; and Li et al., International PCT Publication No. WO 00/44914; Allshire, 2002, Science, 297, 1818-1819; Volpe et al., 2002, Science, 297, 1833-1837; Jenuwein, 2002, Science, 297, 2215-2218; and Hall et al., 2002, Science, 297, 2232-2237; Hutvagner and Zamore, 2002, Science, 297, 2056-60; McManus et al., 2002, RNA, 8, 842-850; Reinhart et al., 2002, Gene & Dev., 16, 1616-1626; and Reinhart & Bartel, 2002, Science, 297, 1831). Additionally, the term RNAi is meant to be equivalent to other terms used to describe sequence specific RNA interference, such as post transcriptional gene silencing, translational inhibition, transcriptional inhibition, or epigenetics. For example, siNA molecules of the invention can be used to epigenetically silence genes at either the post-transcriptional level or the pre-transcriptional level. In a non-limiting example, epigenetic modulation of gene expression by siNA molecules of the invention can result from siNA mediated modification of chromatin structure or methylation patterns to alter gene expression (see, for example, Verdel et al., 2004, Science, 303, 672-676; Pal-Bhadra et al., 2004, Science, 303, 669-672; Allshire, 2002, Science, 297, 1818-1819; Volpe et al., 2002, Science, 297, 1833-1837; Jenuwein, 2002, Science, 297, 2215-2218; and Hall et al., 2002, Science, 297, 2232-2237). In another non-limiting example, modulation of gene expression by siNA molecules of the invention can result from siNA mediated cleavage of RNA (either coding or non-coding RNA) via RISC, or via translational inhibition, as is known in the art or modulation can result from transcriptional inhibition (see for example Janowski et al., 2005, Nature Chemical Biology, 1, 216-222).

The phrase “RNAi inhibitor” refers to any molecule that can down regulate, reduce or inhibit RNA interference function or activity in a cell or organism. An RNAi inhibitor can down regulate, reduce or inhibit RNAi (e.g., RNAi mediated cleavage of a target polynucleotide, translational inhibition, or transcriptional silencing) by interaction with or interfering with the function of any component of the RNAi pathway, including protein components such as RISC, or nucleic acid components such as miRNAs or siRNAs. A RNAi inhibitor can be an siNA molecule, an antisense molecule, an aptamer, or a small molecule that interacts with or interferes with the function of RISC, a miRNA, or an siRNA or any other component of the RNAi pathway in a cell or organism. By inhibiting RNAi (e.g., RNAi mediated cleavage of a target polynucleotide, translational inhibition, or transcriptional silencing), a RNAi inhibitor of the invention can be used to modulate (e.g., up-regulate or down regulate) the expression of a target gene.

The phrase “sense region” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to a nucleotide sequence of an siNA molecule having complementarity to an antisense region of the siNA molecule. In addition, the sense region of an siNA molecule can comprise a nucleic acid sequence having homology or sequence identity with a target nucleic acid sequence. In one embodiment, the sense region of the siNA molecule is also referred to as the sense strand or passenger strand.

The phrases “short interfering nucleic acid”, “siNA”, “short interfering RNA”, “siRNA”, “short interfering nucleic acid molecule”, “short interfering oligonucleotide molecule”, or “chemically modified short interfering nucleic acid molecule” refer to any nucleic acid molecule capable of inhibiting or down regulating gene expression or viral replication by mediating RNA interference (“RNAi”) or gene silencing in a sequence-specific manner. These terms can refer to both individual nucleic acid molecules, a plurality of such nucleic acid molecules, or pools of such nucleic acid molecules. The siNA can be a double-stranded nucleic acid molecule comprising self-complementary sense and antisense strands, wherein the antisense strand comprises a nucleotide sequence that is complementary to a nucleotide sequence in a target nucleic acid molecule or a portion thereof and the sense strand comprises a nucleotide sequence corresponding to the target nucleic acid sequence or a portion thereof. The siNA can be a polynucleotide with a duplex, asymmetric duplex, hairpin or asymmetric hairpin secondary structure, having self-complementary sense and antisense regions, wherein the antisense region comprises a nucleotide sequence that is complementary to a nucleotide sequence in a separate target nucleic acid molecule or a portion thereof and the sense region comprises a nucleotide sequence corresponding to the target nucleic acid sequence or a portion thereof. The siNA can be a circular single-stranded polynucleotide having two or more loop structures and a stem comprising self-complementary sense and antisense regions, wherein the antisense region comprises nucleotide sequence that is complementary to a nucleotide sequence in a target nucleic acid molecule or a portion thereof and the sense region comprises a nucleotide sequence corresponding to the target nucleic acid sequence or a portion thereof, and wherein the circular polynucleotide can be processed either in vivo or in vitro to generate an active siNA molecule capable of mediating RNAi. The siNA can also comprise a single-stranded polynucleotide having a nucleotide sequence complementary to nucleotide sequence in a target nucleic acid molecule or a portion thereof (for example, where such siNA molecule does not require the presence within the siNA molecule of a nucleotide sequence corresponding to the target nucleic acid sequence or a portion thereof), wherein the single-stranded polynucleotide can further comprise a terminal phosphate group, such as a 5′-phosphate (see for example, Martinez et al., 2002, Cell, 110, 563-574 and Schwarz et al., 2002, Molecular Cell, 10, 537-568), or 5′,3′-diphosphate.

The term “subject” as used herein refers to its meaning as is generally accepted in the art. The term generally refers an organism to which the nucleic acid molecules of the invention can be administered. A subject can be a mammal or mammalian cells, including a human or human cells. The term also refers to an organism, which is a donor or recipient of explanted cells or the cells themselves.

The phrase “systemic administration” as used herein refers to its meaning as is generally accepted in the art. The term generally refers in vivo systemic absorption or accumulation of drugs in the blood stream followed by distribution throughout the entire body.

The term “target” as it refers to CTNNB1 refers to any CTNNB1 target protein, peptide, or polypeptide, such as encoded by Genbank Accession Nos. shown in Table 5. The term also refers to nucleic acid sequences or target polynucleotide sequence encoding any target protein, peptide, or polypeptide, such as proteins, peptides, or polypeptides encoded by sequences having Genbank Accession Nos. shown in Table 5. The target of interest can include target polynucleotide sequences, such as target DNA or target RNA. The term “target” is also meant to include other sequences, such as differing isoforms, mutant target genes, splice variants of target polynucleotides, target polymorphisms, and non-coding (e.g., ncRNA, miRNA, stRNA, sRNA) or other regulatory polynucleotide sequences as described herein.

The phrase “target site” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to a sequence within a target nucleic acid molecule, (e.g., RNA) that is “targeted”, e.g., for cleavage mediated by an siNA construct, which contains sequences within its antisense region that are complementary to the target sequence.

The phrase “therapeutically effective amount” as used herein refers to its meaning as is generally accepted in the art. The term generally refers to the amount of the compound or composition that will elicit the biological or medical response of a cell, tissue, system, animal or human that is be sought by the researcher, veterinarian, medical doctor or other clinician. For example, if a given clinical treatment is considered effective when there is at least a 25% reduction in a measurable parameter associated with a disease or disorder, a therapeutically effective amount of a drug for the treatment of that disease or disorder is that amount necessary to effect at least a 25% reduction in that parameter.

The phrase “universal base” as used herein refers to its meaning as is generally accepted in the art. The term universal base generally refers to nucleotide base analogs that form base pairs with each of the natural DNA/RNA bases with little or no discrimination between them. Non-limiting examples of universal bases include C-phenyl, C-naphthyl and other aromatic derivatives, inosine, azole carboxamides, and nitroazole derivatives such as 3-nitropyrrole, 4-nitroindole, 5-nitroindole, and 6-nitroindole as known in the art (see for example, Loakes, 2001, Nucleic Acids Research, 29, 2437-2447).

The term “up-regulate” as used herein refers to its meaning as is generally accepted in the art. With reference to exemplary nucleic acid molecules of the invention, the term refers to an increase in the expression of a gene, or level of RNA molecules or equivalent RNA molecules encoding one or more proteins or protein subunits, or activity of one or more RNAs, proteins or protein subunits, above that observed in the absence of the nucleic acid molecules (e.g., siNA) of the invention. In certain instances, up-regulation or promotion of gene expression with an siNA molecule is above that level observed in the presence of an inactive or attenuated molecule. In other instances, up-regulation or promotion of gene expression with siNA molecules is above that level observed in the presence of, for example, an siNA molecule with scrambled sequence or with mismatches. In still other instances, up-regulation or promotion of gene expression with a nucleic acid molecule of the instant invention is greater in the presence of the nucleic acid molecule than in its absence. In some instances, up-regulation or promotion of gene expression is associated with inhibition of RNA mediated gene silencing, such as RNAi mediated cleavage or silencing of a coding or non-coding RNA target that down regulates, inhibits, or silences the expression of the gene of interest to be up-regulated. The down regulation of gene expression can, for example, be induced by a coding RNA or its encoded protein, such as through negative feedback or antagonistic effects. The down regulation of gene expression can, for example, be induced by a non-coding RNA having regulatory control over a gene of interest, for example by silencing expression of the gene via translational inhibition, chromatin structure, methylation, RISC mediated RNA cleavage, or translational inhibition. As such, inhibition or down regulation of targets that down regulate, suppress, or silence a gene of interest can be used to up-regulate expression of the gene of interest toward therapeutic use.

The term “vector” as used herein refers to its meaning as is generally accepted in the art. The term vector generally refers to any nucleic acid- and/or viral-based expression system or technique used to deliver one or more nucleic acid molecules.

B. siNA Molecules of the Invention

The present invention provides compositions and methods comprising siNAs targeted to CTNNB1 that can be used to treat diseases, e.g., malignancies and/or cancers associated with CTNNB1 expression. In particular aspects and embodiments of the invention, the nucleic acid molecules of the invention comprise at least a 15 nucleotide sequence of the sequences shown in Table 1a and Table 12b. The siNAs can be provided in several forms. For example, the siNA can be isolated as one or more siNA compounds, or it may be in the form of a transcriptional cassette in a DNA plasmid. The siNA may also be chemically synthesized and can include modifications as shown, for example, but not limitation, in Table 1c and Table 6. Thus, in various embodiments, at least one strand or region of the nucleic acids of the invention comprises at least a 15 nucleotide sequence selected from the group of sequences consisting of SEQ ID NOS:1-6374. The siNAs can be administered alone or co-administered with other siNA molecules or with conventional agents that treat a CTNNB1 related disease or condition.

The siNA molecules of the invention can be used to mediate gene silencing, specifically CTNNB1, via interaction with RNA transcripts or alternately by interaction with particular gene sequences, wherein such interaction results in modulation of gene silencing either at the transcriptional level or post-transcriptional level such as, for example, but not limited to, RNAi or through cellular processes that modulate the chromatin structure or methylation patterns of the target and prevent transcription of the target gene, with the nucleotide sequence of the target thereby mediating silencing. More specifically, the target is any of CTNNB1 RNA, DNA, or mRNA,

In one aspect, the invention provides short interfering nucleic acid (siNA) molecules for inhibiting the expression of the CTNNB1 gene in a cell or mammal. The siNA can be single-stranded or double-stranded. When double-stranded, the siNA comprising a sense and an antisense stand. The antisense strand is complementary to at least a part of an mRNA formed in the expression of the CTNNB1 gene. The sense strand comprises a region that is complementary to the antisense strand. In specific embodiments, the antisense strand comprises at least a 15 nucleotide sequence of an antisense sequence listed in Table 12b. Generally, the double-stranded siNA comprises at least a 15 nucleotide sequence of the sense strand in Table 12b and at least a 15 nucleotide sequence of the antisense strand in Table 12b. One or more of the nucleotides of the siNAs of the invention are optionally modified. In further embodiments having modifications, some siNAs of the invention comprises at least one nucleotide sequence selected from the groups of sequences provide in Table 1c. In other embodiments, the siNA comprises at least two sequences selected from the group of sequences provided in Table 1c, wherein one of the at least two sequences is complementary to another of the at least two sequences and one of the at least two sequences is complementary to a sequence of a mRNA generated in the expression of the CTNNB1 gene. Examples of certain modified siNAs of the invention are in Table 1c.

The double stranded RNA molecules of the invention can comprise two distinct and separate strands that can be symmetric or asymmetric and are complementary, i.e., two single-stranded RNA molecules, or can comprise one single-stranded molecule in which two complementary portions, e.g., a sense region and an antisense region, are base-paired, and are covalently linked by one or more single-stranded “hairpin” areas (i.e. loops) resulting in, for example, a single-stranded short-hairpin polynucleotide or a circular single-stranded polynucleotide.

The linker can be polynucleotide linker or a non-nucleotide linker. In some embodiments, the linker is a non-nucleotide linker. In some embodiments, a hairpin or circular siNA molecule of the invention contains one or more loop motifs, wherein at least one of the loop portions of the siNA molecule is biodegradable. For example, a single-stranded hairpin siNA molecule of the invention is designed such that degradation of the loop portion of the siNA molecule in vivo can generate a double-stranded siNA molecule with 3′-terminal overhangs, such as 3′-terminal nucleotide overhangs comprising 1, 2, 3 or 4 nucleotides. Or alternatively, a circular siNA molecule of the invention is designed such that degradation of the loop portions of the siNA molecule in vivo can generate a double-stranded siNA molecule with 3′-terminal overhangs, such as 3′-terminal nucleotide overhangs comprising about 2 nucleotides.

In symmetric siNA molecules of the invention, each strand, the sense (passenger) strand and antisense (guide) strand, are independently about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides in length. Generally, each strand of the symmetric siNA molecules of the invention are about 19-24 (e.g., about 19, 20, 21, 22, 23 or 24) nucleotides in length.

In asymmetric siNA molecules, the antisense region or strand of the molecule is about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides in length, wherein the sense region is about 3 to about 25 (e.g., about 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25) nucleotides in length. Generally, each strand of the asymmetric siNA molecules of the invention is about 19-24 (e.g., about 19, 20, 21, 22, 23 or 24) nucleotides in length.

In yet other embodiments, siNA molecules of the invention comprise single stranded hairpin siNA molecules, wherein the siNA molecules are about 25 to about 70 (e.g., about 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 40, 45, 50, 55, 60, 65, or 70) nucleotides in length.

In still other embodiments, siNA molecules of the invention comprise single-stranded circular siNA molecules, wherein the siNA molecules are about 38 to about 70 (e.g., about 38, 40, 45, 50, 55, 60, 65, or 70) nucleotides in length.

In still other embodiments, siNA molecules of the invention comprise single-stranded non-circular siNA molecules, wherein the siNA molecules are independently about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides in length.

In various symmetric embodiments, the siNA duplexes of the invention independently comprise about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) base pairs. Generally, the duplex structure of siNAs of the invention is between 15 and 30, more generally between 18 and 25, yet more generally between 19 and 24, and most generally between 19 and 21 base pairs in length.

In yet other embodiments, where the duplex siNA molecules of the invention are asymmetric, the siNA molecules comprise about 3 to 25 (e.g., about 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25) base pairs. Generally, the duplex structure of siNAs of the invention is between 15 and 25, more generally between 18 and 25, yet more generally between 19 and 24, and most generally between 19 and 21 base pairs in length.

In still other embodiments, where the siNA molecules of the invention are hairpin or circular structures, the siNA molecules comprise about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) base pairs.

The sense strand and antisense strand, or the sense region and antisense region, of the siNA molecules of the invention can be complementary. Also, the antisense strand or antisense region can be complementary to a nucleotide sequence or a portion thereof of the CTNNB1 target RNA. The sense strand or sense region of the siNA can comprise a nucleotide sequence of a CTNNB1 gene or a portion thereof. In certain embodiments, the sense region or sense strand of an siNA molecule of the invention is complementary to that portion of the antisense region or antisense strand of the siNA molecule that is complementary to a CTNNB1 target polynucleotide sequence, such as for example, but not limited to, those sequences represented by GENBANK Accession Nos. shown in Table 5.

In some embodiments, siNA molecules of the invention have perfect complementarity between the sense strand or sense region and the antisense strand or antisense region of the siNA molecule. In other or the same embodiments, the antisense strand of the siNA molecules of the invention are perfectly complementary to a corresponding target nucleic acid molecule.

In yet other embodiments, siNA molecules of the invention have partial complementarity (i.e., less than 100% complementarity) between the sense strand or sense region and the antisense strand or antisense region of the siNA molecule or between the antisense strand or antisense region of the siNA molecule and a corresponding target nucleic acid molecule. Thus, in some embodiments, the double-stranded nucleic acid molecules of the invention, have between about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides in one strand that are complementary to the nucleotides of the other strand. In other embodiments, the molecules have between about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides in the sense region that are complementary to the nucleotides of the antisense region. of the double-stranded nucleic acid molecule. In certain embodiments, the double-stranded nucleic acid molecules of the invention have between about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides in the antisense strand that are complementary to a nucleotide sequence of its corresponding target nucleic acid molecule.

In other embodiments, the siNA molecule can contain one or more nucleotide deletions, substitutions, mismatches and/or additions; provided, however, that the siNA molecule maintains its activity, for example, to mediate RNAi. In a non-limiting example, the deletion, substitution, mismatch and/or addition can result in a loop or bulge, or alternately a wobble or other alternative (non Watson-Crick) base pair. Thus, in some embodiments, for example, the double-stranded nucleic acid molecules of the invention, have 1 or more (e.g., 1, 2, 3, 4, 5, or 6) nucleotides, in one strand or region that are mismatches or non-base-paired with the other strand or region. In other embodiments, the double-stranded nucleic acid molecules of the invention, have 1 or more (e.g., 1, 2, 3, 4, 5, or 6) nucleotides in each strand or region that are mismatches or non-base-paired with the other strand or region. In a preferred embodiment, the siNA of the invention contains no more than 3 mismatches. If the antisense strand of the siNA contains mismatches to a target sequence, it is preferable that the area of mismatch not be located in the center of the region of complementarity.

In other embodiments, the siNA molecule can contain one or more nucleotide deletions, substitutions, mismatches and/or additions to a sequence in Table 12b provided, however, that the siNA molecule maintains its activity, for example, to mediate RNAi. In a non-limiting example, the deletion, substitution, mismatch and/or addition can result in a loop or bulge, or alternately a wobble or other alternative (non Watson-Crick) base pair.

The invention also comprises double-stranded nucleic acid (siNA) molecules as otherwise described hereinabove in which the first strand and second strand are complementary to each other and wherein at least one strand is hybridisable to the polynucleotide sequence of a sequence in Table 12b under conditions of high stringency, and wherein any of the nucleotides is unmodified or chemically modified.

Hybridization techniques are well known to the skilled artisan (see for instance, Sambrook et al., Molecular Cloning: A Laboratory Manual, 2nd Ed., Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y. (1989)). Preferred stringent hybridization conditions include overnight incubation at 42° C. in a solution comprising: 50% formamide, 5×SSC (150 mM NaCl, 15 mM trisodium citrate), 50 mM sodium phosphate (pH 7.6), 5×Denhardt's solution, 10% dextran sulfate, and 20 microgram/ml denatured, sheared salmon sperm DNA; followed by washing the filters in 0.1×SSC at about 65° C.

In one specific embodiment, the first strand has about 15, 16, 17, 18, 19, 20 or 21 nucleotides that are complementary to the nucleotides of the other strand and at least one strand is hybridisable to a polynucleotide sequence in Table 12b. In a more preferred embodiment, the first strand has about 15, 16, 17, 18, 19, 20 or 21 nucleotides that are complementary to the nucleotides of the other strand and at least one strand is hybridisable to SEQ ID NO: 1, SEQ ID NO: 1049, SEQ ID NO: 43, SEQ ID NO: 1091, SEQ ID NO: 51, SEQ ID NO: 1099, SEQ ID NO: 53, or SEQ ID NO:1101; under conditions of high stringency, and wherein any of the nucleotides is unmodified or chemically modified.

In certain embodiments, the siNA molecules of the invention comprise overhangs of about 1 to about 4 (e.g., about 1, 2, 3 or 4) nucleotides. The nucleotides in the overhangs can be the same or different nucleotides. In some embodiments, the overhangs occur at the 3′-end at one or both strands of the double-stranded nucleic acid molecule. For example, a double-stranded nucleic acid molecule of the invention can comprise a nucleotide or non-nucleotide overhang at the 3′-end of the antisense strand/region, the 3′-end of the sense strand/region, or both the antisense strand/region and the sense strand/region of the double-stranded nucleic acid molecule.

In some embodiments, the nucleotides comprising the overhang portion of an siNA molecule of the invention comprise sequences based on the CTNNB1 target polynucleotide sequence in which nucleotides comprising the overhang portion of the antisense strand/region of an siNA molecule of the invention can be complementary to nucleotides in the CTNNB1 target polynucleotide sequence and/or nucleotides comprising the overhang portion of the sense strand/region of an siNA molecule of the invention can comprise the nucleotides in the CTNNB1 target polynucleotide sequence. Thus, in some embodiments, the overhang comprises a two nucleotide overhang that is complementary to a portion of the CTNNB1 target polynucleotide sequence. In other embodiments, however, the overhang comprises a two nucleotide overhang that is not complementary to a portion of the CTNNB1 target polynucleotide sequence. In certain embodiments, the overhang comprises a 3′-UU overhang that is not complementary to a portion of the CTNNB1 target polynucleotide sequence. In other embodiments, the overhang comprises a UU overhang at the 3′ end of the antisense strand and a TT overhang at the 3′ end of the sense strand. In other embodiments, the overhang comprises nucleotides as described in the examples, Tables, and Figures herein.

In any of the embodiments of the siNA molecules described herein having 3′-terminal nucleotide overhangs, the overhangs are optionally chemically modified at one or more nucleic acid sugar, base, or backbone positions. Representative, but not limiting examples of modified nucleotides in the overhang portion of a double-stranded nucleic acid (siNA) molecule of the invention include: 2′-O-alkyl (e.g., 2′-O-methyl), 2′-deoxy, 2′-deoxy-2′-fluoro, 2′-deoxy-2′-fluoroarabino (FANA), 4′-thio, 2′-O-trifluoromethyl, 2′-O-ethyl-trifluoromethoxy, 2′-O-difluoromethoxy-ethoxy, universal base, acyclic, or 5-C-methyl nucleotides. In more preferred embodiments, the overhang nucleotides are each independently, a 2′-O-alkyl nucleotide, a 2′-O-methyl nucleotide, a 2′-dexoy-2-fluoro nucleotide, or a 2′-deoxy ribonucleotide. In some instances the overhang nucleotides are linked by a one or more phosphorothioate linkages.

In yet other embodiments, siNA molecules of the invention comprise duplex nucleic acid molecules with blunt ends (i.e., without nucleotide overhangs), where both ends are blunt, or alternatively, where one of the ends is blunt. In some embodiments, the siNA molecules of the invention can comprises one blunt end, for example wherein the 5′-end of the antisense strand and the 3′-end of the sense strand do not have any overhanging nucleotides. In another example, the siNA molecule comprises one blunt end, for example wherein the 3′-end of the antisense strand and the 5′-end of the sense strand do not have any overhanging nucleotides. In other embodiments, siNA molecules of the invention comprise two blunt ends, for example wherein the 3′-end of the antisense strand and the 5′-end of the sense strand as well as the 5′-end of the antisense strand and 3′-end of the sense strand do not have any overhanging nucleotides.

In any of the embodiments or aspects of the siNA molecules of the invention, the sense strand and/or the antisense strand can further have a cap, such as described herein or as known in the art, at the 3′-end, the 5′-end, or both of the 3′ and 5′-ends of the sense strand and/or antisense strand. Or as in the case of a hairpin siNA molecule, the cap can be at either one or both of the terminal nucleotides of the polynucleotide. In some embodiments, the cap is at one of both of the ends of the sense strand of a double-stranded siNA molecule. In other embodiments, the cap is at the 3′-end of antisense (guide) strand. In preferred embodiments, the caps are at the 3′-end of the sense strand and the 5′-end of the sense strand.

Representative, but non-limiting examples of such terminal caps include an inverted abasic nucleotide, an inverted deoxy abasic nucleotide, an inverted nucleotide moiety, a group shown in FIG. 5, a glyceryl modification, an alkyl or cycloalkyl group, a heterocycle, or any other cap as is generally known in the art.

Any of the embodiments of the siNA molecules of the invention can have a 5′ phosphate termini. In some embodiments, the siNA molecules lack terminal phosphates.

Any siNA molecule or construct of the invention can comprise one or more chemical modifications. Modifications can be used to improve in vitro or in vivo characteristics such as stability, activity, toxicity, immune response (e.g., prevent stimulation of an interferon response, an inflammatory or pro-inflammatory cytokine response, or a Toll-like Receptor (TlF) response), and/or bioavailability.

Applicants describe herein chemically modified siNA molecules with improved RNAi activity and/or stability compared to corresponding unmodified siNA molecules. Various chemically modified siNA motifs disclosed herein provide the capacity to maintain RNAi activity that is substantially similar to unmodified or minimally modified active siRNA (see for example Elbashir et al., 2001, EMBO J., 20:6877-6888) while at the same time providing nuclease resistance and pharmacokinetic properties suitable for use in therapeutic applications.

In various embodiments, the siNA molecules of the invention comprise modifications wherein any (e.g., one or more or all) nucleotides present in the sense and/or antisense strand are modified nucleotides (e.g., wherein one nucleotide is modified, some nucleotides (i.e., plurality or more than one) are modified, or all nucleotides are modified nucleotides. In some embodiments, the siNA molecules of the invention are partially modified (e.g., about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 55, or 59 nucleotides are modified) with chemical modifications. In some embodiments, an siNA molecule of the invention comprises at least about 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, or 60 nucleotides that are modified nucleotides. In other embodiments, the siNA molecules of the invention are completely modified (e.g., 100% modified) with chemical modifications, i.e., the siNA molecule does not contain any ribonucleotides. In some of embodiments, one or more of the nucleotides in the sense strand of the siNA molecules of the invention are modified. In the same or other embodiments, one or more of the nucleotides in the antisense strand of the siNA molecules of the invention are modified.

The chemical modification within a single siNA molecule can be the same or different. In some embodiments, at least one strand has at least one chemical modification. In other embodiments, each strand has at least one chemical modifications, which can be the same or different, such as, sugar, base, or backbone (i.e., internucleotide linkage) modifications. In other embodiments, siNA molecules of the invention contain at least 2, 3, 4, 5, or more different chemical modifications.

Non-limiting examples of chemical modifications that are suitable for use in the present invention, are disclosed in U.S. patent application Ser. Nos. 10/444,853; 10/981,966; 12/064,014 and in references cited therein and include sugar, base, and phosphate, non-nucleotide modifications, and/or any combination thereof.

In certain specific embodiments of the invention, at least one modified nucleotide is a 2′-deoxy-2-fluoro nucleotide, a 2′-deoxy nucleotide, a 2′-O-alkyl (e.g., 2′-O-methyl) nucleotide, or a locked nucleic acid (LNA) nucleotide as is generally recognized in the art.

In yet other embodiment of the invention, at least one nucleotide has a ribo-like, Northern or A form helix configuration (see e.g., Saenger, Principles of Nucleic Acid Structure, Springer-Verlag ed., 1984). Non-limiting examples of nucleotides having a Northern configuration include locked nucleic acid (LNA) nucleotides (e.g., 2′-O, 4′-C-methylene-(D-ribofuranosyl) nucleotides); 2′-methoxyethoxy (MOE) nucleotides; 2′-methyl-thio-ethyl nucleotides, 2′-deoxy-2′-fluoro nucleotides; 2′-deoxy-2′-chloro nucleotides; 2′-azido nucleotides; 2′-O-trifluoromethyl nucleotides; 2′-O-ethyl-trifluoromethoxy nucleotides; 2′-O-difluoromethoxy-ethoxy nucleotides; 4′-thio nucleotides and 2′-O-methyl nucleotides.

In various embodiments, a majority (e.g., greater than 50%) of the pyrimidine nucleotides present in the double-stranded siNA molecule comprises a sugar modification. In some of the same and/or other embodiments, a majority (e.g., greater than 50%) of the purine nucleotides present in the double-stranded siNA molecule comprises a sugar modification.

In some embodiments, the pyrimidine nucleotides in the antisense strand are 2′-O-methyl or 2′-deoxy-2′-fluoro pyrimidine nucleotides and the purine nucleotides present in the antisense strand are 2′-O-methyl nucleotides or 2′-deoxy nucleotides. In other embodiments, the pyrimidine nucleotides in the sense strand are 2′-deoxy-2′-fluoro pyrimidine nucleotides and the purine nucleotides present in the sense strand are 2′-O-methyl or 2′-deoxy purine nucleotides.

In certain embodiments of the invention, all the pyrimidine nucleotides in the complementary region on the sense strand are 2′-deoxy-2′-fluoro pyrimidine nucleotides. In certain embodiments, all of the pyrimidine nucleotides in the complementary region of the antisense strand are 2′-deoxy-2′-fluoro pyrimidine nucleotides. In certain embodiments, all the purine nucleotides in the complementary region on the sense strand are 2′-deoxy purine nucleotides. In certain embodiments, all of the purines in the complementary region on the antisense strand are 2′-O-methyl purine nucleotides. In certain embodiments, all of the pyrimidine nucleotides in the complementary regions on the sense strand are 2′-deoxy-2′-fluoro pyrimidine nucleotides; all of the pyrimidine nucleotides in the complementary region of the antisense strand are 2′-deoxy-2′-fluoro pyrimidine nucleotides; all the purine nucleotides in the complementary region on the sense strand are 2′-deoxy purine nucleotides and all of the purines in the complementary region on the antisense strand are 2′-O-methyl purine nucleotides.

In some embodiments, at least 5 or more of the pyrimidine nucleotides in one or both stands are 2′-deoxy-2′-fluoro pyrimidine nucleotides. In some embodiments, at least 5 or more of the pyrimidine nucleotides in one or both stands are 2′-O-methylpyrimidine nucleotides. In some embodiments, at least 5 or more of the purine nucleotides in one or both stands are 2′-deoxy-2′-fluoro purine nucleotides In some embodiments, at least 5 or more of the purine nucleotides in one or both stands are 2′-O-methyl purine nucleotides.

In certain embodiments, the purines and pyrimidines are differentially modified at the 2′-sugar position (i.e., at least one purine has a different modification from at least one pyrimidine in the same or different strand at the 2′-sugar position). For example, in some instances, at least 5 or more of the pyrimidine nucleotides in one or both stands are 2′-deoxy-2′-fluoro pyrimidine nucleotides and at least 5 or more purine nucleotides in one or both strands are 2′-O-methyl purine nucleotides. In other instances at least 5 or more of the pyrimidine nucleotides in one or both stands are 2′-O-methylpyrimidine nucleotides and at least 5 or more purine nucleotides in one or both strands are 2′-deoxy-2′-fluoro purine nucleotides.

Further non-limiting examples of sense and antisense strands of such siNA molecules having various modifications and modifications patterns are shown in FIGS. 2 and 3.

Any of the above described modifications, or combinations thereof, including those in the references cited, can be applied to any of the siNA molecules of the invention.

The modified siNA molecules of the invention can comprise modifications at various locations within the siNA molecule. In some embodiments, the double-stranded siNA molecule of the invention comprises modified nucleotides at internal base paired positions within the siNA duplex. In other embodiments, a double-stranded siNA molecule of the invention comprises modified nucleotides at non-base paired or overhang regions of the siNA molecule. In yet other embodiments, a double-stranded siNA molecule of the invention comprises modified nucleotides at terminal positions of the siNA molecule. For example, such terminal regions include the 3′-position and/or 5′-position of the sense and/or antisense strand or region of the siNA molecule. Additionally, any of the modified siNA molecules of the invention can have a modification in one or both oligonucleotide strands of the siNA duplex, for example in the sense strand, the antisense strand, or both strands. Moreover, with regard to chemical modifications of the siNA molecules of the invention, each strand of the double-stranded siNA molecules of the invention can have one or more chemical modifications, such that each strand comprises a different pattern of chemical modifications.

In certain embodiments each strand of a double-stranded siNA molecule of the invention comprises a different pattern of chemical modifications, such as any Stab modification chemistries described herein (see Table 9) or any combination thereof, i.e., different combinations of defined Stabilization chemistry (Stab) sense and antisense strands. Further, non-limiting examples of modification schemes that could give rise to different patterns of modifications are shown in Table 9. The stabilization chemistries referred to in Table 9 as Stab, can be combined in any combination of sense/antisense chemistries, such as Stab 7/8, Stab 7/11, Stab 8/8, Stab 18/8, Stab 18/11, Stab 12/13, Stab 7/13, Stab 18/13, Stab 7/19, Stab 8/19, Stab 18/19, Stab 7/20, Stab 8/20, Stab 18/20, Stab 7/32, Stab 8/32, or Stab 18/32 or any other combination of Stabilization chemistries.

In any of the siNAs of the invention, one or more (for example 1, 2, 3, 4 or 5) nucleotides at the 5′-end of the guide strand or guide region (also known as antisense strand or antisense region) of the siNA molecule are ribonucleotides.

In certain embodiments, the present invention provides a double-stranded short interfering nucleic acid (siNA) molecule that modulates the expression of CTNNB1, wherein the siNA comprises a sense strand and an antisense strand; each strand is independently 15 to 30 nucleotides in length; and the antisense strand comprises at least 15, 16, 17, 18, or 19 nucleotides having sequence complementary to any of:

5′-CUGUUGGAUUGAUUCGAAA-3′; (SEQ ID NO: 5) 5′-ACGACUAGUUCAGUUGCUU-3′; (SEQ ID NO: 194) 5′-GGAUGAUCCUAGCUAUCGU-3′; (SEQ ID NO: 196) or 5′-CCAGGAUGAUCCUAGCUAU-3′. (SEQ ID NO: 151)

In some embodiments, the antisense strand of a siNA molecule of the invention comprises at least a 15, 16, 17, 18, or 19 nucleotide sequence of:

5′-UUUCGAAUCAAUCCAACAG-3′; (SEQ ID NO: 4918) 5′-AAGCAACUGAACUAGUCGU-3′; (SEQ ID NO: 5107) 5′-ACGAUAGCUAGGAUCAUCC-3′; (SEQ ID NO: 5109) or 5′-AUAGCUAGGAUCAUCCUGG-3′. (SEQ ID NO: 5064)

In some embodiments, the sense strand of a siNA molecule of the invention comprises at least a 15, 16, 17, 18, or 19 nucleotide sequence of:

5′-CUGUUGGAUUGAUUCGAAA-3′; (SEQ ID NO: 5) 5′-ACGACUAGUUCAGUUGCUU-3′; (SEQ ID NO: 194) 5′-GGAUGAUCCUAGCUAUCGU-3′; (SEQ ID NO: 196) or 5′-CCAGGAUGAUCCUAGCUAU-3′. (SEQ ID NO: 151)

In some embodiments, a siNA molecule of the invention comprises any of:

5′-CUGUUGGAUUGAUUCGAAA-3′ (SEQ ID NO: 5) and 5′-UUUCGAAUCAAUCCAACAG-3′; (SEQ ID NO: 4918) or 5′-ACGACUAGUUCAGUUGCUU-3′ (SEQ ID NO: 194) and 5′-AAGCAACUGAACUAGUCGU-3′; (SEQ ID NO: 5107) or 5′-GGAUGAUCCUAGCUAUCGU-3′ (SEQ ID NO: 196) and 5′-ACGAUAGCUAGGAUCAUCC-3′; (SEQ ID NO: 5109) or 5′-CCAGGAUGAUCCUAGCUAU-3′ (SEQ ID NO: 151) and 5′-AUAGCUAGGAUCAUCCUGG-3′. (SEQ ID NO: 5064)

Any of the above described modifications, or combinations thereof, including those in the references cited, can be applied to any of these embodiments.

In certain embodiments, the nucleotides of the at least a 15, 16, 17, 18, or 19 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064 form a contiguous stretch of nucleotides.

In some embodiments, the siNA molecule can contain one or more nucleotide deletions, substitutions, mismatches and/or additions to the at least 15, 16, 17, 18, or 19 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; provided, however, that the siNA molecule maintains its activity, for example, to mediate RNAi. In a non-limiting example, the deletion, substitution, mismatch and/or addition can result in a loop or bulge, or alternately a wobble or other alternative (non Watson-Crick) base pair.

In certain embodiments of the invention, double-stranded siNA molecules are provided, wherein the molecule has a sense strand and an antisense strand and comprises the following formula (A):

-   -   wherein, the upper strand is the sense strand and the lower         strand is the antisense strand of the double-stranded nucleic         acid molecule; wherein the antisense strand comprises at least a         15, 16, 17, 18, or 19 nucleotide sequence of SEQ ID NO: 4918,         SEQ ID NO: 5107, SEQ ID NO: 5109, or SEQ ID NO: 5064, and the         sense strand comprises a sequence having complementarity to the         antisense strand;     -   each N is independently a nucleotide which is unmodified or         chemically modified or a non-nucleotide;     -   each B is a terminal cap that is present or absent;     -   (N) represents overhanging nucleotides, each of which is         independently unmodified or chemically modified;     -   [N] represents nucleotides that are ribonucleotides;     -   X1 and X2 are independently integers from 0 to 4;     -   X3 is an integer from 15 to 30;     -   X4 is an integer from 9 to 30; and     -   X5 is an integer from 0 to 6, provided that the sum of X4 and X5         is 15-30.

In certain embodiments, the nucleotides of the at least a 15, 16, 17, 18, or 19 nucleotide sequence of SEQ ID NO: 4918, SEQ ID NO: 5107, SEQ ID NO: 5109, or SEQ ID NO: 5064 form a contiguous stretch of nucleotides.

In some embodiments, the siNA molecule of formula A can contain one or more nucleotide deletions, substitutions, mismatches and/or additions to the at least 15, 16, 17, 18, or 19 nucleotide sequence of SEQ ID NO: 4918, SEQ ID NO: 5107, SEQ ID NO: 5109, or SEQ ID NO: 5064; provided, however, that the siNA molecule maintains its activity, for example, to mediate RNAi. In a non-limiting example, the deletion, substitution, mismatch and/or addition can result in a loop or bulge, or alternately a wobble or other alternative (non Watson-Crick) base pair.

In one embodiment, the invention features a double-stranded short interfering nucleic acid (siNA) of formula (A); wherein

-   -   (a) one or more pyrimidine nucleotides in N_(X4) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof;     -   (b) one or more purine nucleotides in N_(X4) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof;     -   (c) one or more pyrimidine nucleotides in N_(X3) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof; and     -   (d) one or more purine nucleotides in N_(X3) positions are         independently 2′-deoxy-2′-fluoro nucleotides, 2′-O-alkyl         nucleotides, 2′-deoxy nucleotides, ribonucleotides, or any         combination thereof.

In certain embodiments, the invention features a double-stranded short interfering nucleic acid (siNA) molecule of formula (A); wherein

-   -   (a) 1, 2, 3, 4, 5 or more pyrimidine nucleotides in N_(X4)         positions are 2′-deoxy-2′-fluoro nucleotides;     -   (b) 1, 2, 3, 4, 5 or more purine nucleotides in N_(X4) positions         are 2′-O-alkyl nucleotides;     -   (c) 1, 2, 3, 4, 5 or more pyrimidine nucleotides in N_(X3)         positions are 2′-deoxy-2′-fluoro nucleotides; and     -   (d) 1, 2, 3, 4, 5 or more purine nucleotides in N_(X3) positions         are 2′-deoxy nucleotides.

In certain embodiments, the invention features a double-stranded short interfering nucleic acid (siNA) molecule of formula (A); wherein

-   -   (a) 1, 2, 3, 4, 5 or more pyrimidine nucleotides in N_(X4)         positions are 2′-O-alkyl nucleotides;     -   (b) 1, 2, 3, 4, 5 or more purine nucleotides in N_(X4) positions         are ribonucleotides;     -   (c) 1, 2, 3, 4, 5 or more pyrimidine nucleotides in N_(X3)         positions are 2′-O-alkyl nucleotides; and     -   (d) 1, 2, 3, 4, 5 or more purine nucleotides in N_(X3) positions         are ribonucleotides.

In certain embodiments, the invention features a double-stranded short interfering nucleic acid (siNA) molecule of formula (A); wherein

-   -   (a) 1, 2, 3, 4, 5 or more pyrimidine nucleotides in N_(X4)         positions are 2′-deoxy-2′-fluoro nucleotides;     -   (b) 1, 2, 3, 4, 5 or more purine nucleotides in N_(X4) positions         are 2′-O-alkyl nucleotides;     -   (c) 1, 2, 3, 4, 5 or more pyrimidine nucleotides in N_(X3)         positions are 2′-O-alkyl nucleotides; and     -   (d) 1, 2, 3, 4, 5 or more purine nucleotides in N_(X3) positions         are 2′-deoxy-2′-fluoro nucleotides.

In certain embodiments, the invention features a double-stranded short interfering nucleic acid (siNA) molecule of formula (A) further comprising one or more phosphorothioate internucleotide linkages.

In some embodiments, siNA molecules having formula A comprise a terminal phosphate group at the 5′-end of the antisense strand or antisense region of the nucleic acid molecule.

In various embodiments, siNA molecules having formula A comprise X5=0, 1, 2, or 3; each X1 and X2=1 or 2; X3=18, 19, 20, 21, 22, or 23, and X4=17, 18, 19, 20, 21, 22, or 23.

In certain embodiments, siNA molecules having formula A comprise X5=3. In other embodiments siNA molecules having formula A comprise X5=0.

In certain embodiments, siNA molecules having formula A comprise X1=2 and X2=2.

In various embodiments, siNA molecules having formula A comprise X5=0, X1=2, and X2=2. In other embodiments, siNA molecules having formula A comprise X5=3, X1=2, and X2=2.

In one specific embodiment, an siNA molecule having formula A comprises X5=3; each X1 and X2=2; X3=19, and X4=16.

In another specific embodiment, an siNA molecule having formula A comprises X5=0; each X1 and X2=2; X3=19, and X4=19.

In certain embodiments, siNA molecules having formula A comprise caps (B) at the 3′ and 5′ ends of the sense strand or sense region.

In certain embodiments, siNA molecules having formula A comprise caps (B) at the 3′-end of the antisense strand or antisense region.

In various embodiments, siNA molecules having formula A comprise caps (B) at the 3′ and 5′ ends of the sense strand or sense region and caps (B) at the 3′-end of the antisense strand or antisense region.

In yet other embodiments, siNA molecules having formula A comprise caps (B) only at the 5′-end of the sense (upper) strand of the double-stranded nucleic acid molecule.

In some embodiments, siNA molecules having formula A further comprise one or more phosphorothioate internucleotide linkages between the nucleotides. In certain embodiments, siNA molecules having formula A comprise one or more phosphorothioate internucleotide linkages between the first terminal (N) and the adjacent nucleotide on the 3′ end of the sense strand, antisense strand, or both sense strand and antisense strands of the nucleic acid molecule. For example, a double-stranded nucleic acid molecule can comprise X1 and/or X2=2 having overhanging nucleotide positions with a phosphorothioate internucleotide linkage, e.g., (NsN) where “s” indicates phosphorothioate.

In some embodiments, one or more of the nucleotides of siNA molecules having formula A have a universal base.

In certain embodiments, siNA molecules having formula A have at position 14 from the 5′-end of the antisense strand a ribonucleotide when the nucleotide at that position 14 is a purine. In other embodiments, siNA molecules having formula A have at position 14 from the 5′-end of the antisense strand a ribonucleotide, a 2′-deoxy-2′-fluoro nucleotide or a 2′-O-methyl nucleotide when the nucleotide at that position 14 is a pyrimidine nucleotide.

In some embodiments, siNA molecules having formula A comprises (N) nucleotides in the antisense strand (lower strand) that are complementary to nucleotides in a CTNNB1 target polynucleotide sequence, which also has complementarity to the N and [N] nucleotides of the antisense (lower) strand.

In certain embodiments, one or more siNA molecules of the invention are modified according to modification criteria as shown and described in U.S. Ser. No. 61/408,428 and U.S. Ser. No. 61/408,303, both of which are incorporated by reference herein.

Any of the above described modifications, or combinations thereof, discussed above as applicable to siNAs of the invention, including those in the references cited, can be applied to any of the embodiments to siNA molecules of the present invention.

C. Generation/Synthesis of siNA Molecules

The siNAs of the invention can be obtained using a number of techniques known to those of skill in the art. For example the siNA can be chemically synthesized or may be encoded by plasmid (e.g., transcribed as sequences that automatically fold into duplexes with hairpin loops.). siNA can also be generated by cleavage of longer dsRNA (e.g., dsRNA greater than about 25 nucleotides in length) by the E. coli RNase II or Dicer. These enzymes process the dsRNA into biologically active siNA (see, e.g., Yang et al., PNAS USA 99:9942-9947 (2002); Calegari et al. PNAS USA 99:14236 (2002) Byron et al. Ambion Tech Notes; 10 (1):4-6 (2009); Kawaski et al., Nucleic Acids Res., 31:981-987 (2003), Knight and Bass, Science, 293:2269-2271 (2001) and Roberston et al., J. Biol. Chem. 243:82 (1969).

1. Chemical Synthesis

Preferably, siNA of the invention are chemically synthesized. Oligonucleotides (e.g., certain modified oligonucleotides or portions of oligonucleotides lacking ribonucleotides) are synthesized using protocols known in the art, for example as described in Caruthers et al., 1992, Methods in Enzymology 211, 3-19, Thompson et al., International PCT Publication No. WO 99/54459, Wincott et al., 1995, Nucleic Acids Res. 23, 2677-2684, Wincott et al., 1997, Methods Mol. Bio., 74, 59, Brennan et al., 1998, Biotechnol Bioeng., 61, 33-45, and Brennan, U.S. Pat. No. 6,001,311. The synthesis of oligonucleotides makes use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5′-end, and phosphoramidites at the 3′-end.

siNA molecules without modifications are synthesized using procedures as described in Usman et al., 1987, J. Am. Chem. Soc., 109, 7845; Scaringe et al., 1990, Nucleic Acids Res., 18, 5433. These syntheses makes use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5′-end, and phosphoramidites at the 3′-end that can be used for certain siNA molecules of the invention.

In certain embodiments, the siNA molecules of the invention are synthesized, deprotected, and analyzed according to methods described in U.S. Pat. Nos. 6,995,259, 6,686,463, 6,673,918, 6,649,751, 6,989,442, and U.S. patent application Ser. No. 10/190,359.

In a non-limiting synthesis example, small scale syntheses are conducted on a 394 Applied Biosystems, Inc. synthesizer using a 0.2 μmol scale protocol with a 2.5 min coupling step for 2′-O-methylated nucleotides and a 45 second coupling step for 2′-deoxy nucleotides or 2′-deoxy-2′-fluoro nucleotides. Table 10 outlines the amounts and the contact times of the reagents used in the synthesis cycle.

Alternatively, the siNA molecules of the present invention can be synthesized separately and joined together post-synthetically, for example, by ligation (Moore et al., 1992, Science 256, 9923; Draper et al., International PCT Publication No. WO 93/23569; Shabarova et al., 1991, Nucleic Acids Research 19, 4247; Bellon et al., 1997, Nucleosides & Nucleotides, 16, 951; Bellon et al., 1997, Bioconjugate Chem. 8, 204), or by hybridization following synthesis and/or deprotection.

Various siNA molecules of the invention can also be synthesized using the teachings of Scaringe et al., U.S. Pat. Nos. 5,889,136; 6,008,400; and 6,111,086.

2. Vector Expression

Alternatively, siNA molecules of the invention that interact with and down-regulate gene encoding target CTNNB1 molecules can be expressed and delivered from transcription units (see for example Couture et al., 1996, TIG., 12, 510) inserted into DNA or RNA vectors. The recombinant vectors can be DNA plasmids or viral vectors. siNA expressing viral vectors can be constructed based on, but not limited to, adeno-associated virus, retrovirus, adenovirus, or alphavirus.

In some embodiments, pol III based constructs are used to express nucleic acid molecules of the invention. Transcription of the siNA molecule sequences can be driven from a promoter for eukaryotic RNA polymerase I (pol I), RNA polymerase II (pol II), or RNA polymerase III (pol III). (see for example, Thompson, U.S. Pat. Nos. 5,902,880 and 6,146,886). (See also, Izant and Weintraub, 1985, Science, 229, 345; McGarry and Lindquist, 1986, Proc. Natl. Acad. Sci., USA 83, 399; Scanlon et al., 1991, Proc. Natl. Acad. Sci. USA, 88, 10591-5; Kashani-Sabet et al., 1992, Antisense Res. Dev., 2, 3-15; Dropulic et al., 1992, J. Virol., 66, 1432-41; Weerasinghe et al., 1991, J. Virol., 65, 5531-4; Ojwang et al., 1992, Proc. Natl. Acad. Sci. USA, 89, 10802-6; Chen et al., 1992, Nucleic Acids Res., 20, 4581-9; Sarver et al., 1990 Science, 247, 1222-1225; Thompson et al., 1995, Nucleic Acids Res., 23, 2259; Good et al., 1997, Gene Therapy, 4, 45. Transcripts from pol II or pol III promoters are expressed at high levels in all cells; the levels of a given pol II promoter in a given cell type depends on the nature of the gene regulatory sequences (enhancers, silencers, etc.) present nearby. Prokaryotic RNA polymerase promoters are also used, providing that the prokaryotic RNA polymerase enzyme is expressed in the appropriate cells (Elroy-Stein and Moss, 1990, Proc. Natl. Acad. Sci. USA, 87, 6743-7; Gao and Huang 1993, Nucleic Acids Res., 21, 2867-72; Lieber et al., 1993, Methods Enzymol., 217, 47-66; Zhou et al., 1990, Mol. Cell. Biol., 10, 4529-37). Several investigators have demonstrated that nucleic acid molecules expressed from such promoters can function in mammalian cells (e.g. Kashani-Sabet et al., 1992, Antisense Res. Dev., 2, 3-15; Ojwang et al., 1992, Proc. Natl. Acad. Sci. USA, 89, 10802-6; Chen et al., 1992, Nucleic Acids Res., 20, 4581-9; Yu et al., 1993, Proc. Natl. Acad. Sci. USA, 90, 6340-4; L′Huillier et al., 1992, EMBO J., 11, 4411-8; Lisziewicz et al., 1993, Proc. Natl. Acad. Sci. U.S. A, 90, 8000-4; Thompson et al., 1995, Nucleic Acids Res., 23, 2259; Sullenger & Cech, 1993, Science, 262, 1566). More specifically, transcription units such as the ones derived from genes encoding U6 small nuclear (snRNA), transfer RNA (tRNA) and adenovirus VA RNA are useful in generating high concentrations of desired RNA molecules such as siNA in cells (Thompson et al., supra; Couture and Stinchcomb, 1996, supra; Noonberg et al., 1994, Nucleic Acid Res., 22, 2830; Noonberg et al., U.S. Pat. No. 5,624,803; Good et al., 1997, Gene Ther., 4, 45; Beigelman et al., International PCT Publication No. WO 96/18736. The above siNA transcription units can be incorporated into a variety of vectors for introduction into mammalian cells, including but not restricted to, plasmid DNA vectors, viral DNA vectors (such as adenovirus or adeno-associated virus vectors), or viral RNA vectors (such as retroviral or alphavirus vectors) (for a review see Couture and Stinchcomb, 1996, supra).

Vectors used to express the siNA molecules of the invention can encode one or both strands of an siNA duplex, or a single self-complementary strand that self hybridizes into an siNA duplex. The nucleic acid sequences encoding the siNA molecules of the instant invention can be operably linked in a manner that allows expression of the siNA molecule (see for example Paul et al., 2002, Nature Biotechnology, 19, 505; Miyagishi and Taira, 2002, Nature Biotechnology, 19, 497; Lee et al., 2002, Nature Biotechnology, 19, 500; and Novina et al., 2002, Nature Medicine, advance online publication doi:10.1038/nm725).

D. Carrier/Delivery Systems

The siNA molecules of the invention are added directly, or can be complexed with cationic lipids, packaged within liposomes, or as a recombinant plasmid or viral vectors which express the siNA molecules, or otherwise delivered to target cells or tissues. Methods for the delivery of nucleic acid molecules are described in Akhtar et al., 1992, Trends Cell Bio., 2, 139; Delivery Strategies for Antisense Oligonucleotide Therapeutics, ed. Akhtar, 1995, Maurer et al., 1999, Mol. Membr. Biol., 16, 129-140; Hofland and Huang, 1999, Handb. Exp. Pharmacol., 137, 165-192; and Lee et al., 2000, ACS Symp. Ser., 752, 184-192. Beigelman et al., U.S. Pat. No. 6,395,713 and Sullivan et al., PCT WO 94/02595 further describe the general methods for delivery of nucleic acid molecules. These protocols can be utilized for the delivery of virtually any nucleic acid molecule. Nucleic acid molecules can be administered to cells by a variety of methods known to those of skill in the art, including, but not restricted to, encapsulation in liposomes, by iontophoresis, or by incorporation into other vehicles, such as biodegradable polymers, hydrogels, cyclodextrins (see for example, Gonzalez et al., 1999, Bioconjugate Chem., 10, 1068-1074; Wang et al., International PCT Publication Nos. WO 03/47518 and WO 03/46185), poly(lactic-co-glycolic)acid (PLGA) and PLCA microspheres (see for example U.S. Pat. No. 6,447,796 and US Patent Application Publication No. US 2002130430), biodegradable nanocapsules, and bioadhesive microspheres, or by proteinaceous vectors (O'Hare and Normand, International PCT Publication No. WO 00/53722).

In one aspect, the present invention provides carrier systems containing the siNA molecules described herein. In some embodiments, the carrier system is a lipid-based carrier system, cationic lipid, or liposome nucleic acid complexes, a liposome, a micelle, a virosome, a lipid nanoparticle or a mixture thereof. In other embodiments, the carrier system is a polymer-based carrier system such as a cationic polymer-nucleic acid complex. In additional embodiments, the carrier system is a cyclodextrin-based carrier system such as a cyclodextrin polymer-nucleic acid complex. In further embodiments, the carrier system is a protein-based carrier system such as a cationic peptide-nucleic acid complex. Preferably, the carrier system is a lipid nanoparticle (“LNP”) formulation.

In certain embodiments, the siNA molecules of the invention are formulated with a lipid nanoparticle composition such as is described in U.S. patent application Ser. Nos. 11/353,630, 11/586,102, 61/189,295, 61/204,878, 61/235,476, 61/249,807, 61/298,022, 61/351,373, 61/347,640, 61/345,754, 61/322,054, 12/640,342, and 12/617,079, and PCT Applications Nos. PCT/US10/020,013 and PCT/US09/053,336. In certain preferred embodiments, the siNA molecules of the invention are formulated with a lipid nanoparticle composition comprising a cationic lipid/Cholesterol/PEG-C-DMA/DSPC in a 40/48/2/10 ratio or a cationic lipid/Cholesterol/PEG-DMG/DSPC in a 40/48/2/10 ratio. In more certain embodiments, the cationic lipid is DLinDMA (see Table 12), the PEG is PEG-DMG, and the N/P ratio of the formulation is 2.8. In more preferred embodiments, the cationic lipid is DLinDMA (see Tables 11 & 12).

In various embodiments, lipid nanoparticle formulations described in Table 11 are applied to any siNA molecule or combination of siNA molecules herein. In some embodiments, the invention features a composition comprising an siNA molecule of the invention formulated as any of formulation LNP-051; LNP-053; LNP-054; LNP-069; LNP-073; LNP-077; LNP-080; LNP-082; LNP-083; LNP-060; LNP-061; LNP-086; LNP-097; LNP-098; LNP-099; LNP-100; LNP-101; LNP-102; LNP-103; or LNP-104 (see Table 11).

In certain other embodiments, the invention features a composition comprising an siNA molecule of the invention formulated with any of the cationic lipid formulations described in U.S. Patent Application Nos. 61/189,295, 61/204,878, 61/235,476, 61/249,807, and 61/298,022.

In other embodiments, the invention features conjugates and/or complexes of siNA molecules of the invention. Such conjugates and/or complexes can be used to facilitate delivery of siNA molecules into a biological system, such as a cell. The conjugates and complexes provided by the instant invention can impart therapeutic activity by transferring therapeutic compounds across cellular membranes, altering the pharmacokinetics, and/or modulating the localization of nucleic acid molecules of the invention. Non-limiting, examples of such conjugates are described in U.S. Publication Nos. US2008/0152661 A1 and US 2004/0162260 A1 (e.g., CDM-LBA, CDM-Pip-LBA, CDM-PEG, CDM-NAG, etc.) and U.S. patent application Ser. Nos. 10/427,160 10/201,394, 61/322,422, and 61/315,223; and U.S. Pat. Nos. 6,528,631; 6,335,434; 6,235,886; 6,153,737; 5,214,136; and 5,138,045.

In various embodiments, polyethylene glycol (PEG) can be covalently attached to siNA compounds of the present invention. The attached PEG can be any molecular weight, preferably from about 100 to about 50,000 daltons (Da).

In yet other embodiments, the invention features compositions or formulations comprising surface-modified liposomes containing poly (ethylene glycol) lipids (PEG-modified, or long-circulating liposomes or stealth liposomes) and siNA molecules of the invention, such as is disclosed in for example, International PCT Publication No. WO 96/10391; Ansell et al., International PCT Publication No. WO 96/10390; Holland et al., International PCT Publication No. WO 96/10392.

In some embodiments, the siNA molecules of the invention can also be formulated or complexed with polyethyleneimine and derivatives thereof, such as polyethyleneimine-polyethyleneglycol-N-acetylgalactosamine (PEI-PEG-GAL) or polyethylene imine-polyethyleneglycol-tri-N-acetylgalactosamine (PEI-PEG-triGAL) derivatives. In one embodiment, the nucleic acid molecules of the invention are formulated as described in U.S. Patent Application Publication No. 20030077829.

In other embodiments, siNA molecules of the invention are complexed with membrane disruptive agents such as those described in U.S. Patent Application Publication No. 20010007666. In still other embodiments, the membrane disruptive agent or agents and the siNA molecule are also complexed with a cationic lipid or helper lipid molecule, such as those lipids described in U.S. Pat. No. 6,235,310.

In certain embodiments, siNA molecules of the invention are complexed with delivery systems as described in U.S. Patent Application Publication Nos. 2003077829; 20050287551; 20050164220; 20050191627; 20050118594; 20050153919; 20050085486; and 20030158133; and International PCT Publication Nos. WO 00/03683 and WO 02/087541.

In some embodiments, a liposomal formulation of the invention comprises an siNA molecule of the invention (e.g., siNA) formulated or complexed with compounds and compositions described in U.S. Pat. Nos. 6,858,224; 6,534,484; 6,287,591; 6,835,395; 6,586,410; 6,858,225; 6,815,432; 6,586,001; 6,120,798; 6,977,223; 6,998,115; 5,981,501; 5,976,567; 5,705,385; and U.S. Patent Application Publication Nos. 2006/0019912; 2006/0019258; 2006/0008909; 2005/0255153; 2005/0079212; 2005/0008689; 2003/0077829, 2005/0064595, 2005/0175682, 2005/0118253; 2004/0071654; 2005/0244504; 2005/0265961 and 2003/0077829.

Alternatively, recombinant plasmids and viral vectors, as discussed above, which express siNAs of the invention can be used to deliver the molecules of the invention. Delivery of siNA molecule expressing vectors can be systemic, such as by intravenous or intra-muscular administration, by administration to target cells ex-planted from a subject followed by reintroduction into the subject, or by any other means that would allow for introduction into the desired target cell (for a review see Couture et al., 1996, TIG., 12, 510). Such recombinant plasmids can also be administered directly or in conjunction with a suitable delivery reagents, including, for example, the Minis Transit LT1 lipophilic reagent; lipofectin; lipofectamine; cellfectin; polycations (e.g., polylysine) or liposomes lipid-based carrier system, cationic lipid, or liposome nucleic acid complexes, a micelle, a virosome, a lipid nanoparticle.

E. Kits

The present invention also provides nucleic acids in kit form. The kit may comprise a container. The kit typically contains a nucleic acid of the invention with instructions for its administration. In certain instances, the nucleic acids may have a targeting moiety attached. Methods of attaching targeting moieties (e.g. antibodies, proteins) are known to those of skill in the art. In certain instances, the nucleic acids are chemically modified. In other embodiments, the kit contains more than one siNA molecule of the invention. The kits may comprise an siNA molecule of the invention with a pharmaceutically acceptable carrier or diluent. The kits may further comprise excipients.

F. Therapeutic Uses/Pharmaceutical Compositions

The present body of knowledge in CTNNB1 research indicates the need for methods to assay CTNNB1 activity and for compounds that can regulate CTNNB1 expression for research, diagnostic, and therapeutic use. As described infra, the nucleic acid molecules of the present invention can be used in assays to diagnose disease state related of CTNNB1 levels. In addition, the nucleic acid molecules and pharmaceutical compositions can be used to treat disease states related to CTNNB1 RNA levels.

1. Disease States Associated with CTNNB1

Particular disease states that can be associated with CTNNB1 expression modulation include various cancers including solid tumors. Non-limiting examples of such cancers include: bilary tract cancer, bladder cancer, transitional cell carcinoma, urothelial carcinoma, osteosarcoma, brain cancer, gliomas, astrocytomas, breast carcinoma, metaplastic carcinoma, cervical cancer, cervical squamous cell carcinoma, rectal cancer, colorectal carcinoma, colon cancer, hereditary nonpolyposis colorectal cancer, colorectal adenocarcinomas, gastrointestinal stromal tumors (GISTs), endometrial carcinoma, endometrial stromal sarcomas, esophageal cancer, esophageal squamous cell carcinoma, esophageal adenocarcinoma, ocular melanoma, uveal melanoma, gallbladder carcinomas, gallbladder adenocarcinoma, renal cell carcinoma, clear cell renal cell carcinoma, transitional cell carcinoma, urothelial carcinomas, wilms tumor, leukemia, acute lymocytic leukemia (ALL), acute myeloid leukemia (AML), chronic lymphocytic (CLL), chronic myeloid (CML), chronic myelomonocytic (CMML), liver cancer, liver carcinoma, hepatoma, hepatocellular carcinoma, cholangiocarcinoma, hepatoblastoma, Lung cancer, non-small cell lung cancer (NSCLC), mesothelioma, B-cell lymphomas, non-Hodgkin lymphoma, diffuse large B-cell lymphoma, Mantle cell lymphoma, T-cell lymphomas, non-Hodgkin lymphoma, precursor T-lymphoblastic lymphoma/leukemia, peripheral T-cell lymphomas, multiple myeloma, nasopharyngeal carcinoma (NPC), neuroblastoma, oropharyngeal cancer, oral cavity squamous cell carcinomas, osteosarcoma, ovarian carcinoma, pancreatic cancer, pancreatic ductal adenocarcinoma, pseudopapillary neoplasms, acinar cell carcinomas, Prostate cancer, prostate adenocarcinoma, skin cancer, melanoma, malignant melanoma, cutaneous melanoma, small intestine carcinomas, stomach cancer, gastric carcinoma, gastrointestinal stromal tumor (GIST), uterine cancer, and uterine sarcoma.

It is understood that the siNA molecules of the invention can degrade the target CTNNB1 mRNA (and thus inhibit the diseases stated above). Inhibition of a disease can be evaluated by directly measuring the progress of the disease in a subject. It can also be inferred through observing a change or reversal in a condition associated with the disease. Additionally, the siNA molecules of the invention can be used as a prophylaxis. Thus, the use of the nucleic acid molecules and pharmaceutical compositions of the invention can be used to ameliorate, treat, prevent, and/or cure these diseases and others associated with regulation of CTNNB1 gene expression.

2. Pharmaceutical Compositions

The siNA molecules of the instant invention provide useful reagents and methods for a variety of therapeutic, prophylactic, cosmetic, veterinary, diagnostic, target validation, genomic discovery, genetic engineering, and pharmacogenomic applications.

a. Formulations

Thus, the present invention, in one aspect, also provides for pharmaceutical compositions of the siNA molecules described, i.e., compositions in a pharmaceutically acceptable carrier or diluent. These pharmaceutical compositions include salts, esters, or salts of such esters, of the above compounds, e.g., acid addition salts, for example, salts of hydrochloric, hydrobromic, hydroiodic, acetic acid, and benzene sulfonic acid. Other salts include for example, sodium, potassium, manganese, ammonium, and calcium salts. These formulations or compositions can comprise a pharmaceutically acceptable carrier or diluent as is generally known in the art.

In one embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5. In another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 4918. In yet another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 194. In still another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5107. In another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 196. In another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5109. In another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 151. In yet another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5064. In still another embodiment, the invention features a pharmaceutical composition comprising an siNA molecule comprising formula (A).

The siNA molecules of the invention are preferably formulated as pharmaceutical compositions prior to administering to a subject, according to techniques known in the art. Pharmaceutical compositions of the present invention are characterized as being at least sterile and pyrogen-free. Methods for preparing pharmaceutical compositions of the invention are within the skill in the art for example as described in Remington's Pharmaceutical Science, 17^(th) ed., Mack Publishing Company, Easton, Pa. (1985).

In some embodiments, pharmaceutical compositions of the invention (e.g. siNA and/or LNP formulations thereof) further comprise conventional pharmaceutical excipients and/or additives. Suitable pharmaceutical excipients include preservatives, flavoring agents, stabilizers, antioxidants, osmolality adjusting agents, buffers, and pH adjusting agents. Suitable additives include physiologically biocompatible buffers (e.g., trimethylamine hydrochloride), addition of chelants (such as, for example, DTPA or DTPA-bisamide) or calcium chelate complexes (as for example calcium DTPA, CaNaDTPA-bisamide), or, optionally, additions of calcium or sodium salts (for example, calcium chloride, calcium ascorbate, calcium gluconate or calcium lactate). In addition, antioxidants and suspending agents can be used.

Non-limiting examples of various types of formulations for local administration include ointments, lotions, creams, gels, foams, preparations for delivery by transdermal patches, powders, sprays, aerosols, capsules or cartridges for use in an inhaler or insufflator or drops (for example eye or nose drops), solutions/suspensions for nebulization, suppositories, pessaries, retention enemas and chewable or suckable tablets or pellets (for example for the treatment of aphthous ulcers) or liposome or microencapsulation preparations.

Ointments, creams and gels, can, for example, can be formulated with an aqueous or oily base with the addition of suitable thickening and/or gelling agent and/or solvents. Non limiting examples of such bases can thus, for example, include water and/or an oil such as liquid paraffin or a vegetable oil such as arachis oil or castor oil, or a solvent such as polyethylene glycol. Various thickening agents and gelling agents can be used depending on the nature of the base. Non-limiting examples of such agents include soft paraffin, aluminum stearate, cetostearyl alcohol, polyethylene glycols, woolfat, beeswax, carboxypolymethylene and cellulose derivatives, and/or glyceryl monostearate and/or non-ionic emulsifying agents.

In one embodiment lotions can be formulated with an aqueous or oily base and will in general also contain one or more emulsifying agents, stabilizing agents, dispersing agents, suspending agents or thickening agents.

In one embodiment powders for external application can be formed with the aid of any suitable powder base, for example, talc, lactose or starch. Drops can be formulated with an aqueous or non-aqueous base also comprising one or more dispersing agents, solubilizing agents, suspending agents or preservatives.

Compositions intended for oral use can be prepared according to any method known to the art for the manufacture of pharmaceutical compositions and such compositions can contain one or more such sweetening agents, flavoring agents, coloring agents or preservative agents in order to provide pharmaceutically elegant and palatable preparations. Tablets contain the active ingredient in admixture with non-toxic pharmaceutically acceptable excipients that are suitable for the manufacture of tablets. These excipients can be, for example, inert diluents; such as calcium carbonate, sodium carbonate, lactose, calcium phosphate or sodium phosphate; granulating and disintegrating agents, for example, corn starch, or alginic acid; binding agents, for example starch, gelatin or acacia; and lubricating agents, for example magnesium stearate, stearic acid or talc. The tablets can be uncoated or they can be coated by known techniques. In some cases such coatings can be prepared by known techniques to delay disintegration and absorption in the gastrointestinal tract and thereby provide a sustained action over a longer period. For example, a time delay material such as glyceryl monosterate or glyceryl distearate can be employed.

Formulations for oral use can also be presented as hard gelatin capsules wherein the active ingredient is mixed with an inert solid diluent, for example, calcium carbonate, calcium phosphate or kaolin, or as soft gelatin capsules wherein the active ingredient is mixed with water or an oil medium, for example peanut oil, liquid paraffin or olive oil.

Aqueous suspensions contain the active materials in a mixture with excipients suitable for the manufacture of aqueous suspensions. Such excipients are suspending agents, for example sodium carboxymethylcellulose, methylcellulose, hydropropyl-methylcellulose, sodium alginate, polyvinylpyrrolidone, gum tragacanth and gum acacia; dispersing or wetting agents can be a naturally-occurring phosphatide, for example, lecithin, or condensation products of an alkylene oxide with fatty acids, for example polyoxyethylene stearate; or condensation products of ethylene oxide with long chain aliphatic alcohols, for example heptadecaethyleneoxycetanol, or condensation products of ethylene oxide with partial esters derived from fatty acids and a hexitol such as polyoxyethylene sorbitol monooleate, or condensation products of ethylene oxide with partial esters derived from fatty acids and hexitol anhydrides, for example polyethylene sorbitan monooleate. The aqueous suspensions can also contain one or more preservatives, for example ethyl, or n-propyl p-hydroxybenzoate, one or more coloring agents, one or more flavoring agents, and one or more sweetening agents, such as sucrose or saccharin.

Oily suspensions can be formulated by suspending the active ingredients in a vegetable oil, for example arachis oil, olive oil, sesame oil or coconut oil, or in a mineral oil such as liquid paraffin. The oily suspensions can contain a thickening agent, for example beeswax, hard paraffin or cetyl alcohol. Sweetening agents and flavoring agents can be added to provide palatable oral preparations. These compositions can be preserved by the addition of an anti-oxidant such as ascorbic acid

Pharmaceutical compositions of the invention can also be in the form of oil-in-water emulsions. The oily phase can be a vegetable oil or a mineral oil or mixtures of these. Suitable emulsifying agents can be naturally-occurring gums, for example gum acacia or gum tragacanth, naturally-occurring phosphatides, for example soy bean, lecithin, and esters or partial esters derived from fatty acids and hexitol, anhydrides, for example sorbitan monooleate, and condensation products of the said partial esters with ethylene oxide, for example polyoxyethylene sorbitan monooleate. The emulsions can also contain sweetening and flavoring agents.

Syrups and elixirs can be formulated with sweetening agents, for example glycerol, propylene glycol, sorbitol, glucose or sucrose. Such formulations can also contain a demulcent, a preservative and flavoring and coloring agents. The pharmaceutical compositions can be in the form of a sterile injectable aqueous or oleaginous suspension. This suspension can be formulated according to the known art using those suitable dispersing or wetting agents and suspending agents that have been mentioned above. The sterile injectable preparation can also be a sterile injectable solution or suspension in a non-toxic parentally acceptable diluent or solvent, for example as a solution in 1,3-butanediol. Among the acceptable vehicles and solvents that can be employed are water, Ringer's solution and isotonic sodium chloride solution. In addition, sterile, fixed oils are conventionally employed as a solvent or suspending medium. For this purpose, any bland fixed oil can be employed including synthetic mono- or diglycerides. In addition, fatty acids such as oleic acid find use in the preparation of injectables.

The nucleic acid molecules of the invention can also be administered in the form of suppositories, e.g., for rectal administration of the drug. These compositions can be prepared by mixing the drug with a suitable non-irritating excipient that is solid at ordinary temperatures but liquid at the rectal temperature and will therefore melt in the rectum to release the drug. Such materials include cocoa butter and polyethylene glycols.

Nucleic acid molecules of the invention can be administered parenterally in a sterile medium. The drug, depending on the vehicle and concentration used, can either be suspended or dissolved in the vehicle. Advantageously, adjuvants such as local anesthetics, preservatives and buffering agents can be dissolved in the vehicle.

In other embodiments, the siNA and LNP compositions and formulations provided herein for use in pulmonary delivery further comprise one or more surfactants. Suitable surfactants or surfactant components for enhancing the uptake of the compositions of the invention include synthetic and natural as well as full and truncated forms of surfactant protein A, surfactant protein B, surfactant protein C, surfactant protein D and surfactant Protein E, di-saturated phosphatidylcholine (other than dipalmitoyl), dipalmitoylphosphatidylcholine, phosphatidylcholine, phosphatidylglycerol, phosphatidylinositol, phosphatidylethanolamine, phosphatidylserine; phosphatidic acid, ubiquinones, lysophosphatidylethanolamine, lysophosphatidylcholine, palmitoyl-lysophosphatidylcholine, dehydroepiandrosterone, dolichols, sulfatidic acid, glycerol-3-phosphate, dihydroxyacetone phosphate, glycerol, glycero-3-phosphocholine, dihydroxyacetone, palmitate, cytidine diphosphate (CDP) diacylglycerol, CDP choline, choline, choline phosphate; as well as natural and artificial lamellar bodies which are the natural carrier vehicles for the components of surfactant, omega-3 fatty acids, polyenic acid, polyenoic acid, lecithin, palmitinic acid, non-ionic block copolymers of ethylene or propylene oxides, polyoxypropylene, monomeric and polymeric, polyoxyethylene, monomeric and polymeric, poly (vinyl amine) with dextran and/or alkanoyl side chains, Brij 35, Triton X-100 and synthetic surfactants ALEC, Exosurf, Survan and Atovaquone, among others. These surfactants can be used either as single or part of a multiple component surfactant in a formulation, or as covalently bound additions to the 5′ and/or 3′ ends of the nucleic acid component of a pharmaceutical composition herein.

b. Combinations

The siNAs and pharmaceutical formulations according to the invention can be administered to a subject alone or used in combination with or include one or more other therapeutic agents, for example, anticancer agents. Thus, combinations of the presently disclosed compounds with other anti-cancer or chemotherapeutic agents are within the scope of the invention. Examples of such agents can be found in Cancer Principles and Practice of Oncology by V. T. Devita and S. Hellman (editors), 6^(th) edition (Feb. 15, 2001), Lippincott Williams & Wilkins Publishers. A person of ordinary skill in the art would be able to discern which combinations of agents would be useful based on the particular characteristics of the drugs and the cancer involved. Such anti-cancer agents include, but are not limited to, the following: estrogen receptor modulators, androgen receptor modulators, retinoid receptor modulators, cytotoxic/cytostatic agents, antiproliferative agents, prenyl-protein transferase inhibitors, HMG-CoA reductase inhibitors and other angiogenesis inhibitors, inhibitors of cell proliferation and survival signaling, apoptosis inducing agents and agents that interfere with cell cycle checkpoints. The siNAs of the invention are also useful in combination with any therapeutic agent used in the treatment of HCC, for example, but not limitation sorafenib. The instant compounds are particularly useful when co-administered with radiation therapy.

In a further embodiment, therefore, the invention provides a combination comprising an siNA molecule of the invention, such as for example, but not limitation, an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; or formula (A) or a pharmaceutically acceptable salt, solvate or physiologically functional derivative thereof together with one or more anti-cancer or chemotherapeutic agents.

In certain embodiments, the instant siNA molecules of the invention are useful in combination with known anti-cancer agents including the following: estrogen receptor modulators, androgen receptor modulators, retinoid receptor modulators, cytotoxic agents, antiproliferative agents, prenyl-protein transferase inhibitors, HMG-CoA reductase inhibitors, HIV protease inhibitors, reverse transcriptase inhibitors, and other angiogenesis inhibitors.

Examples of estrogen receptor modulators that can be used in combination with the compounds of the invention include, but are not limited to, tamoxifen, raloxifene, idoxifene, LY353381, LY117081, toremifene, fulvestrant, 447-(2,2-dimethyl-1-oxopropoxy-4-methyl-2-[4-[2-(1-piperidinyl)ethoxy]phenyl]-2H-1-benzopyran-3-yl]-phenyl-2,2-dimethylpropanoate, 4,4′-dihydroxybenzophenone-2,4-dinitrophenyl-hydrazone, and SH646.

Examples of androgen receptor modulators that can be used in combination with the compounds of the invention include, but are not limited to, finasteride and other 5α-reductase inhibitors, nilutamide, flutamide, bicalutamide, liarozole, and abiraterone acetate.

Examples of such retinoid receptor modulators that can be used in combination with the compounds of the invention include, but are not limited to, bexarotene, tretinoin, 13-cis-retinoic acid, 9-cis-retinoic acid, α-difluoromethylornithine, ILX23-7553, trans-N-(4′-hydroxyphenyl)retinamide, and N-4-carboxyphenyl retinamide.

Examples of cytotoxic agents that can be used in combination with the compounds of the invention include, but are not limited to, sertenef, cachectin, ifosfamide, tasonermin, lonidamine, carboplatin, altretamine, prednimustine, dibromodulcitol, ranimustine, fotemustine, nedaplatin, oxaliplatin, temozolomide, heptaplatin, estramustine, improsulfan tosilate, trofosfamide, nimustine, dibrospidium chloride, pumitepa, lobaplatin, satraplatin, profiromycin, cisplatin, irofulven, dexifosfamide, cis-aminedichloro(2-methyl-pyridine)platinum, benzylguanine, glufosfamide, GPX100, (trans, trans, trans)-bis-mu-(hexane-1,6-diamine)-mu-[diamine-platinum(II)]bis[diamine(chloro)platinum (II)]tetrachloride, diarizidinylspermine, arsenic trioxide, 1-(11-dodecylamino-10-hydroxyundecyl)-3,7-dimethylxanthine, zorubicin, idarubicin, daunorubicin, bisantrene, mitoxantrone, pirarubicin, pinafide, valrubicin, amrubicin, antineoplaston, 3′-deamino-3′-morpholino-13-deoxo-10-hydroxycaminomycin, annamycin, galarubicin, elinafide, MEN10755, and 4-demethoxy-3-deamino-3-aziridinyl-4-methylsulphonyl-daunorubicin (see WO 00/50032).

An example of a hypoxia activatable compound that can be used in combination with the compounds of the invention is tirapazamine.

Examples of proteasome inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, lactacystin and bortezomib.

Examples of microtubule inhibitors/microtubule-stabilising agents that can be used in combination with the compounds of the invention include, but are not limited to, paclitaxel, vindesine sulfate, 3′,4′-didehydro-4′-deoxy-8′-norvincaleukoblastine, docetaxol, rhizoxin, dolastatin, mivobulin isethionate, auristatin, cemadotin, RPR109881, BMS184476, vinflunine, cryptophycin, 2,3,4,5,6-pentafluoro-N-(3-fluoro-4-methoxyphenyl)benzene sulfonamide, anhydrovinblastine, N,N-dimethyl-L-valyl-L-valyl-N-methyl-L-valyl-L-prolyl-L-proline-t-butylamide, TDX258, the epothilones (see for example U.S. Pat. Nos. 6,284,781 and 6,288,237) and BMS188797.

Some examples of topoisomerase inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, are topotecan, hycaptamine, irinotecan, rubitecan, 6-ethoxypropionyl-3′,4′-O-exo-benzylidene-chartreusin, 9-methoxy-N,N-dimethyl-5-nitropyrazolo[3,4,5-kl]acridine-2-(6H)propanamine, 1-amino-9-ethyl-5-fluoro-2,3-dihydro-9-hydroxy-4-methyl-1H,12H-benzo[de]pyrano[3′,4′:b,7]-indolizino[1,22b]quinoline-10,13(9H,15H)dione, lurtotecan, 7-[2-(N-isopropylamino)ethyl]-(20S)camptothecin, BNP1350, BNPI1100, BN80915, BN80942, etoposide phosphate, teniposide, sobuzoxane, 2′-dimethylamino-2′-deoxy-etoposide, GL331, N-[2-(dimethylamino)ethyl]-9-hydroxy-5,6-dimethyl-6H-pyrido[4,3-b]carbazole-1-carboxamide, asulacrine, (5a,5aB, 8aa,92b)-9-[2-[N-[2-(dimethylamino)ethyl]-N-methylamino]ethyl]-5-[4-hydro0xy-3,5-dimethoxyphenyl]-5,5a,6,8,8a,9-hexohydrofuro(3′,4′:6,7)naphtho(2,3-d)-1,3-dioxol-6-one, 2,3-(methylenedioxy)-5-methyl-7-hydroxy-8-methoxybenzo[c]-phenanthridinium, 6,9-bis[(2-aminoethyl)amino]benzo[g]isoguinoline-5,10-dione, 5-(3-aminopropylamino)-7,10-dihydroxy-2-(2-hydroxyethylaminomethyl)-6H-pyrazolo[4,5,1-de]acridin-6-one, N-[1-[2(diethylamino)ethylamino]-7-methoxy-9-oxo-9H-thioxanthen-4-ylmethyl]formamide, N-(2-(dimethylamino)ethyl)acridine-4-carboxamide, 6-[[2-(dimethylamino)ethyl]amino]-3-hydroxy-7H-indeno[2,1-c]quinolin-7-one, and dimesna.

Examples of inhibitors of mitotic kinesins, and in particular the human mitotic kinesin KSP, that can be used in combination with the compounds of the invention include, but are not limited to, inhibitors described in PCT Publications WO 01/30768, WO 01/98278, WO 03/050,064, WO 03/050,122, WO 03/049,527, WO 03/049,679, WO 03/049,678, WO04/039774, WO03/079973, WO03/099211, WO03/105855, WO03/106417, WO04/037171, WO04/058148, WO04/058700, WO04/126699, WO05/018638, WO05/019206, WO05/019205, WO05/018547, WO05/017190, US2005/0176776. In an embodiment inhibitors of mitotic kinesins include, but are not limited to inhibitors of KSP, inhibitors of MKLP1, inhibitors of CENP-E, inhibitors of MCAK, inhibitors of Kif14, inhibitors of Mphosph1 and inhibitors of Rab6-KIFL.

Examples of “histone deacetylase inhibitors” that can be used in combination with the compounds of the invention include, but are not limited to, TSA, oxamflatin, PXD101, MG98, valproic acid and scriptaid. Further reference to other histone deacetylase inhibitors may be found in the following manuscript; Miller, T. A. et al. J. Med. Chem. 46(24):5097-5116 (2003).

Inhibitors of kinases involved in mitotic progression that can be used in combination with the compounds of the invention include, but are not limited to, inhibitors of aurora kinase, inhibitors of Polo-like kinases (PLK) (in particular inhibitors of PLK-1), inhibitors of bub-1 and inhibitors of bub-R1.

Antiproliferative agents that can be used in combination with the compounds of the invention include, but are not limited to, antisense RNA and DNA oligonucleotides such as G3139, ODN698, RVASKRAS, GEM231, and INX3001, and antimetabolites such as enocitabine, carmofur, tegafur, pentostatin, doxifluridine, trimetrexate, fludarabine, capecitabine, galocitabine, cytarabine ocfosfate, fosteabine sodium hydrate, raltitrexed, paltitrexid, emitefur, tiazofurin, decitabine, nolatrexed, pemetrexed, nelzarabine, 2′-deoxy-2′-methylidenecytidine, 2′-fluoromethylene-2′-deoxycytidine, N-[5-(2,3-dihydro-benzofuryl)sulfonyl]-N′-(3,4-dichlorophenyl)urea, N6-[4-deoxy-4-[N2-[2(E),4(E)-tetradecadienoyl]glycylamino]-L-glycero-B-L-manno-heptopyranosyl]adenine, aplidine, ecteinascidin, troxacitabine, 4-[2-amino-4-oxo-4,6,7,8-tetrahydro-3H-pyrimidino[5,4-b][1,4]thiazin-6-yl-(S)-ethyl]-2,5-thienoyl-L-glutamic acid, aminopterin, 5-fluorouracil, alanosine, 11-acetyl-8-(carbamoyloxymethyl)-4-formyl-6-methoxy-14-oxa-1,11-diazatetracyclo(7.4.1.0.0)-tetradeca-2,4,6-trien-9-yl acetic acid ester, swainsonine, lometrexol, dexrazoxane, methioninase, 2′-cyano-2′-deoxy-N4-palmitoyl-1-B-D-arabino furanosyl cytosine and 3-aminopyridine-2-carboxaldehyde thiosemicarbazone.

Examples of monoclonal antibody targeted therapeutic agents that can be used in combination with the compounds of the invention include those therapeutic agents which have cytotoxic agents or radioisotopes attached to a cancer cell specific or target cell specific monoclonal antibody, such as, for example, Bexxar.

Examples of HMG-CoA reductase inhibitors that may be used that can be used in combination with the compounds of the invention include, but are not limited to, lovastatin (MEVACOR®; see U.S. Pat. Nos. 4,231,938, 4,294,926 and 4,319,039), simvastatin (ZOCOR®; see U.S. Pat. Nos. 4,444,784, 4,820,850 and 4,916,239), pravastatin (PRAVACHOL®; see U.S. Pat. Nos. 4,346,227, 4,537,859, 4,410,629, 5,030,447 and 5,180,589), fluvastatin (LESCOL®; see U.S. Pat. Nos. 5,354,772, 4,911,165, 4,929,437, 5,189,164, 5,118,853, 5,290,946 and 5,356,896) and atorvastatin (LIPITOR®; see U.S. Pat. Nos. 5,273,995, 4,681,893, 5,489,691 and 5,342,952). The structural formulas of these and additional HMG-CoA reductase inhibitors that may be used in the instant methods are described at page 87 of M. Yalpani, “Cholesterol Lowering Drugs”, Chemistry & Industry, pp. 85-89 (5 Feb. 1996) and U.S. Pat. Nos. 4,782,084 and 4,885,314.

Examples of prenyl-protein transferase inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, can be found in the following publications and patents: WO 96/30343, WO 97/18813, WO 97/21701, WO 97/23478, WO 97/38665, WO 98/28980, WO 98/29119, WO 95/32987, U.S. Pat. No. 5,420,245, U.S. Pat. No. 5,523,430, U.S. Pat. No. 5,532,359, U.S. Pat. No. 5,510,510, U.S. Pat. No. 5,589,485, U.S. Pat. No. 5,602,098, European Patent Publ. 0 618 221, European Patent Publ. 0 675 112, European Patent Publ. 0 604 181, European Patent Publ. 0 696 593, WO 94/19357, WO 95/08542, WO 95/11917, WO 95/12612, WO 95/12572, WO 95/10514, U.S. Pat. No. 5,661,152, WO 95/10515, WO 95/10516, WO 95/24612, WO 95/34535, WO 95/25086, WO 96/05529, WO 96/06138, WO 96/06193, WO 96/16443, WO 96/21701, WO 96/21456, WO 96/22278, WO 96/24611, WO 96/24612, WO 96/05168, WO 96/05169, WO 96/00736, U.S. Pat. No. 5,571,792, WO 96/17861, WO 96/33159, WO 96/34850, WO 96/34851, WO 96/30017, WO 96/30018, WO 96/30362, WO 96/30363, WO 96/31111, WO 96/31477, WO 96/31478, WO 96/31501, WO 97/00252, WO 97/03047, WO 97/03050, WO 97/04785, WO 97/02920, WO 97/17070, WO 97/23478, WO 97/26246, WO 97/30053, WO 97/44350, WO 98/02436, and U.S. Pat. No. 5,532,359. For an example of the role of a prenyl-protein transferase inhibitor on angiogenesis see European J. of Cancer, Vol. 35, No. 9, pp. 1394-1401 (1999).

Examples of angiogenesis inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, tyrosine kinase inhibitors, such as inhibitors of the tyrosine kinase receptors Flt-1 (VEGFR1) and Flk-1/KDR (VEGFR2), inhibitors of epidermal-derived, fibroblast-derived, or platelet derived growth factors, MMP (matrix metalloprotease) inhibitors, integrin blockers, interferon-α, interleukin-12, pentosan polysulfate, cyclooxygenase inhibitors, including nonsteroidal anti-inflammatories (NSAIDs) like aspirin and ibuprofen as well as selective cyclooxy-genase-2 inhibitors like celecoxib and rofecoxib (PNAS, Vol. 89, p. 7384 (1992); JNCI, Vol. 69, p. 475 (1982); Arch. Opthalmol., Vol. 108, p. 573 (1990); Anat. Rec., Vol. 238, p. 68 (1994); FEBS Letters, Vol. 372, p. 83 (1995); Clin. Orthop. Vol. 313, p. 76 (1995); J. Mol. Endocrinol., Vol. 16, p. 107 (1996); Jpn. J. Pharmacol., Vol. 75, p. 105 (1997); Cancer Res., Vol. 57, p. 1625 (1997); Cell, Vol. 93, p. 705 (1998); Intl. J. Mol. Med., Vol. 2, p. 715 (1998); J. Biol. Chem., Vol. 274, p. 9116 (1999)), steroidal anti-inflammatories (such as corticosteroids, mineralocorticoids, dexamethasone, prednisone, prednisolone, methylpred, betamethasone), carboxyamidotriazole, combretastatin A-4, squalamine, 6-O-chloroacetyl-carbonyl)-fumagillol, thalidomide, angiostatin, troponin-1, angiotensin II antagonists (see Fernandez et al., J. Lab. Clin. Med. 105:141-145 (1985)), and antibodies to VEGF (see, Nature Biotechnology, Vol. 17, pp. 963-968 (October 1999); Kim et al., Nature, 362, 841-844 (1993); WO 00/44777; and WO 00/61186).

Other therapeutic agents that modulate or inhibit angiogenesis may also be used in combination with the compounds of the instant invention and include agents that modulate or inhibit the coagulation and fibrinolysis systems (see review in Clin. Chem. La. Med. 38:679-692 (2000)). Examples of such agents that modulate or inhibit the coagulation and fibrinolysis pathways that can be used in combination with the compounds of the invention include, but are not limited to, heparin (see Thromb. Haemost. 80:10-23 (1998)), low molecular weight heparins and carboxypeptidase U inhibitors (also known as inhibitors of active thrombin activatable fibrinolysis inhibitor [TAFIa]) (see Thrombosis Res. 101:329-354 (2001)). TAFIa inhibitors have been described in PCT Publication WO 03/013,526 and U.S. Ser. No. 60/349,925 (filed Jan. 18, 2002).

Agents that interfere with cell cycle checkpoints that can be used in combination with the compounds of the invention include, but are not limited to, inhibitors of ATR, ATM, the Chk1 and Chk2 kinases and cdk and cdc kinase inhibitors and are specifically exemplified by 7-hydroxystaurosporin, flavopiridol, CYC202 (Cyclacel) and BMS-387032.

Agents that interfere with receptor tyrosine kinases (RTKs) that can be used in combination with the compounds of the invention include, but are not limited to, inhibitors of c-Kit, Eph, PDGF, Flt3 and CTNNB1. Further agents include inhibitors of RTKs as described by Bume-Jensen and Hunter, Nature, 411:355-365, 2001.

Inhibitors of cell proliferation and survival signaling pathway that can be used in combination with the compounds of the invention include, but are not limited to, inhibitors of EGFR (for example gefitinib and erlotinib), inhibitors of ERB-2 (for example trastuzumab), inhibitors of IGFR, inhibitors of cytokine receptors, inhibitors of CTNNB1, inhibitors of PI3K (for example LY294002), serine/threonine kinases (including but not limited to inhibitors of Akt such as described in WO 02/083064, WO 02/083139, WO 02/083140, US 2004-0116432, WO 02/083138, US 2004-0102360, WO 03/086404, WO 03/086279, WO 03/086394, WO 03/084473, WO 03/086403, WO 2004/041162, WO 2004/096131, WO 2004/096129, WO 2004/096135, WO 2004/096130, WO 2005/100356, WO 2005/100344), inhibitors of Raf kinase (for example BAY-43-9006), inhibitors of MEK (for example CI-1040 and PD-098059) and inhibitors of mTOR (for example Wyeth CCI-779). Such agents include small molecule inhibitor compounds and antibody antagonists.

Apoptosis inducing agents that can be used in combination with the compounds of the invention include, but are not limited to, activators of TNF receptor family members (including the TRAIL receptors).

NSAIDs that are selective COX-2 inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, those NSAIDs disclosed in U.S. Pat. No. 5,474,995, U.S. Pat. No. 5,861,419, U.S. Pat. No. 6,001,843, U.S. Pat. No. 6,020,343, U.S. Pat. No. 5,409,944, U.S. Pat. No. 5,436,265, U.S. Pat. No. 5,536,752, U.S. Pat. No. 5,550,142, U.S. Pat. No. 5,604,260, U.S. Pat. No. 5,698,584, U.S. Pat. No. 5,710,140, WO 94/15932, U.S. Pat. No. 5,344,991, U.S. Pat. No. 5,134,142, U.S. Pat. No. 5,380,738, U.S. Pat. No. 5,393,790, U.S. Pat. No. 5,466,823, U.S. Pat. No. 5,633,272, and U.S. Pat. No. 5,932,598, all of which are hereby incorporated by reference.

Inhibitors of COX-2 that are particularly useful in combination with the compounds of the invention include: 3-phenyl-4-(4-(methylsulfonyl)phenyl)-2-(5H)-furanone; and 5-chloro-3-(4-methylsulfonyl)-phenyl-2-(2-methyl-5-pyridinyl)pyridine; or a pharmaceutically acceptable salt thereof.

Compounds that have been described as specific inhibitors of COX-2 and are therefore useful in the present invention include, but are not limited to: parecoxib, CELEBREX® and BEXTRA® or a pharmaceutically acceptable salt thereof.

Angiogenesis inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, endostatin, ukrain, ranpirnase, IM862, 5-methoxy-4-[2-methyl-3-(3-methyl-2-butenyl)oxiranyl]-1-oxaspiro[2,5]oct-6-yl(chloroacetyl)carbamate, acetyldinanaline, 5-amino-1-[[3,5-dichloro-4-(4-chlorobenzoyl)-phenyl]methyl]-1H-1,2,3-triazole-4-carboxamide, CM101, squalamine, combretastatin, RPI4610, NX31838, sulfated mannopentaose phosphate, 7,7-(carbonyl-bis[imino-N-methyl-4,2-pyrrolocarbonylimino[N-methyl-4,2-pyrrole]-carbonylimino]-bis-(1,3-naphthalene disulfonate), and 3-[(2,4-dimethylpyrrol-5-yl)methylene]-2-indolinone (SU5416).

Tyrosine kinase inhibitors that can be used in combination with the compounds of the invention include, but are not limited to, N-(trifluoromethylphenyl)-5-methylisoxazol-4-carboxamide, 3-[(2,4-dimethylpyrrol-5-yl)methylidenyl)indolin-2-one, 17-(allylamino)-17-demethoxygeldanamycin, 4-(3-chloro-4-fluorophenylamino)-7-methoxy-6-[3-(4-morpholinyl)propoxyl]quinazoline, N-(3-ethynylphenyl)-6,7-bis(2-methoxyethoxy)-4-quinazolinamine, BIBX1382, 2,3,9,10,11,12-hexahydro-10-(hydroxymethyl)-10-hydroxy-9-methyl-9,12-epoxy-1H-diindolo[1,2,3-fg:3′,2′,1′-kl]pyrrolo[3,4-i][1,6]benzodiazocin-1-one, SH268, genistein, imatinib (STI571), CEP2563, 4-(3-chlorophenylamino)-5,6-dimethyl-7H-pyrrolo[2,3-d]pyrimidinemethane sulfonate, 4-(3-bromo-4-hydroxyphenyl)amino-6,7-dimethoxyquinazoline, 4-(4′-hydroxyphenyl)amino-6,7-dimethoxyquinazoline, SU6668, STI571A, N-4-chlorophenyl-4-(4-pyridylmethyl)-1-phthalazinamine, and EMD121974.

Combinations with compounds other than anti-cancer compounds are also encompassed in the instant compositions and methods. For example, combinations of the instantly claimed compounds with PPAR-γ (i.e., PPAR-gamma) agonists and PPAR-δ (i.e., PPAR-delta) agonists are useful in the treatment of certain malignancies. PPAR-γ and PPAR-δ are the nuclear peroxisome proliferator-activated receptors γ and δ. The expression of PPAR-δ on endothelial cells and its involvement in angiogenesis has been reported in the literature (see J. Cardiovasc. Pharmacol. 31:909-913 (1998); J. Biol. Chem. 274:9116-9121 (1999); Invest. Ophthalmol. Vis. Sci. 41:2309-2317 (2000)). More recently, PPAR-γ agonists have been shown to inhibit the angiogenic response to VEGF in vitro; both troglitazone and rosiglitazone maleate inhibit the development of retinal neovascularization in mice. (Arch. Ophthamol. 119:709-717 (2001)). Examples of PPAR-γ agonists and PPAR-γ/α agonists that can be used in combination with the compounds of the invention include, but are not limited to, thiazolidinediones (such as DRF2725, CS-011, troglitazone, rosiglitazone, and pioglitazone), fenofibrate, gemfibrozil, clofibrate, GW2570, SB219994, AR-H039242, JTT-501, MCC-555, GW2331, GW409544, NN2344, KRP297, NP0110, DRF4158, NN622, G1262570, PNU182716, DRF552926, 2-[(5,7-dipropyl-3-trifluoromethyl-1,2-benzisoxazol-6-yl)oxy]-2-methylpropionic acid (disclosed in U.S. Ser. No. 09/782,856), and 2(R)-7-(3-(2-chloro-4-(4-fluorophenoxy)phenoxy)propoxy)-2-ethylchromane-2-carboxylic acid (disclosed in U.S. Ser. No. 60/235,708 and 60/244,697).

Another embodiment of the instant invention is the use of the presently disclosed compounds in combination with gene therapy for the treatment of cancer. For an overview of genetic strategies to treating cancer see Hall et al. (Am J Hum Genet. 61:785-789 (1997)) and Kufe et al. (Cancer Medicine, 5th Ed, pp 876-889, BC Decker, Hamilton, 2000). Gene therapy can be used to deliver any tumor suppressing gene. Examples of such genes include, but are not limited to, p53, which can be delivered via recombinant virus-mediated gene transfer (see U.S. Pat. No. 6,069,134, for example), a uPA/uPAR antagonist (“Adenovirus-Mediated Delivery of a uPA/uPAR Antagonist Suppresses Angiogenesis-Dependent Tumor Growth and Dissemination in Mice,” Gene Therapy, August 5(8):1105-13 (1998)), and interferon gamma (J Immunol 164:217-222 (2000)).

The compounds of the instant invention may also be administered in combination with an inhibitor of inherent multidrug resistance (MDR), in particular MDR associated with high levels of expression of transporter proteins. Such MDR inhibitors include inhibitors of p-glycoprotein (P-gp), such as LY335979, XR9576, OC144-093, R101922, VX853 and PSC833 (valspodar).

A compound of the present invention may be employed in conjunction with anti-emetic agents to treat nausea or emesis, including acute, delayed, late-phase, and anticipatory emesis, which may result from the use of a compound of the present invention, alone or with radiation therapy. For the prevention or treatment of emesis, a compound of the present invention may be used in conjunction with other anti-emetic agents, especially neurokinin-1 receptor antagonists, 5HT3 receptor antagonists, such as ondansetron, granisetron, tropisetron, and zatisetron, GABAB receptor agonists, such as baclofen, a corticosteroid such as Decadron (dexamethasone), Kenalog, Aristocort, Nasalide, Preferid, Benecorten or others such as disclosed in U.S. Pat. Nos. 2,789,118, 2,990,401, 3,048,581, 3,126,375, 3,929,768, 3,996,359, 3,928,326 and 3,749,712, an antidopaminergic, such as the phenothiazines (for example prochlorperazine, fluphenazine, thioridazine and mesoridazine), metoclopramide or dronabinol. In an embodiment, an anti-emesis agent selected from a neurokinin-1 receptor antagonist, a 5HT3 receptor antagonist and a corticosteroid is administered as an adjuvant for the treatment or prevention of emesis that may result upon administration of the instant compounds.

Neurokinin-1 receptor antagonists of use in conjunction with the compounds of the present invention are fully described, for example, in U.S. Pat. Nos. 5,162,339, 5,232,929, 5,242,930, 5,373,003, 5,387,595, 5,459,270, 5,494,926, 5,496,833, 5,637,699, 5,719,147; European Patent Publication Nos. EP 0 360 390, 0 394 989, 0 428 434, 0 429 366, 0 430 771, 0 436 334, 0 443 132, 0 482 539, 0 498 069, 0 499 313, 0 512 901, 0 512 902, 0 514 273, 0 514 274, 0 514 275, 0 514 276, 0 515 681, 0 517 589, 0 520 555, 0 522 808, 0 528 495, 0 532 456, 0 533 280, 0 536 817, 0 545 478, 0 558 156, 0 577 394, 0 585 913, 0 590 152, 0 599 538, 0 610 793, 0 634 402, 0 686 629, 0 693 489, 0 694 535, 0 699 655, 0 699 674, 0 707 006, 0 708 101, 0 709 375, 0 709 376, 0 714 891, 0 723 959, 0 733 632 and 0 776 893; PCT International Patent Publication Nos. WO 90/05525, 90/05729, 91/09844, 91/18899, 92/01688, 92/06079, 92/12151, 92/15585, 92/17449, 92/20661, 92/20676, 92/21677, 92/22569, 93/00330, 93/00331, 93/01159, 93/01165, 93/01169, 93/01170, 93/06099, 93/09116, 93/10073, 93/14084, 93/14113, 93/18023, 93/19064, 93/21155, 93/21181, 93/23380, 93/24465, 94/00440, 94/01402, 94/02461, 94/02595, 94/03429, 94/03445, 94/04494, 94/04496, 94/05625, 94/07843, 94/08997, 94/10165, 94/10167, 94/10168, 94/10170, 94/11368, 94/13639, 94/13663, 94/14767, 94/15903, 94/19320, 94/19323, 94/20500, 94/26735, 94/26740, 94/29309, 95/02595, 95/04040, 95/04042, 95/06645, 95/07886, 95/07908, 95/08549, 95/11880, 95/14017, 95/15311, 95/16679, 95/17382, 95/18124, 95/18129, 95/19344, 95/20575, 95/21819, 95/22525, 95/23798, 95/26338, 95/28418, 95/30674, 95/30687, 95/33744, 96/05181, 96/05193, 96/05203, 96/06094, 96/07649, 96/10562, 96/16939, 96/18643, 96/20197, 96/21661, 96/29304, 96/29317, 96/29326, 96/29328, 96/31214, 96/32385, 96/37489, 97/01553, 97/01554, 97/03066, 97/08144, 97/14671, 97/17362, 97/18206, 97/19084, 97/19942 and 97/21702; and in British Patent Publication Nos. 2 266 529, 2 268 931, 2 269 170, 2 269 590, 2 271 774, 2 292 144, 2 293 168, 2 293 169, and 2 302 689. The preparation of such compounds is fully described in the aforementioned patents and publications, which are incorporated herein by reference.

In an embodiment, the neurokinin-1 receptor antagonist for use in conjunction with the compounds of the present invention is selected from: 2-(R)-(1-(R)-(3,5-bis(trifluoromethyl)-phenyl)ethoxy)-3-(S)-(4-fluorophenyl)-4-(3-(5-oxo-1H,4H-1,2,4-triazolo)methyl)morpholine, or a pharmaceutically acceptable salt thereof, which is described in U.S. Pat. No. 5,719,147.

A compound of the instant invention may also be useful for treating or preventing cancer, including bone cancer, in combination with bisphosphonates (understood to include bisphosphonates, diphosphonates, bisphosphonic acids and diphosphonic acids). Examples of bisphosphonates include but are not limited to: etidronate (Didronel), pamidronate (Aredia), alendronate (Fosamax), risedronate (Actonel), zoledronate (Zometa), ibandronate (Boniva), incadronate or cimadronate, clodronate, EB-1053, minodronate, neridronate, piridronate and tiludronate including any and all pharmaceutically acceptable salts, derivatives, hydrates and mixtures thereof.

A compound of the instant invention may also be administered with an agent useful in the treatment of anemia. Such an anemia treatment agent is, for example, a continuous eythropoiesis receptor activator (such as epoetin alfa).

A compound of the instant invention may also be administered with an agent useful in the treatment of neutropenia. Such a neutropenia treatment agent is, for example, a hematopoietic growth factor which regulates the production and function of neutrophils such as a human granulocyte colony stimulating factor, (G-CSF). Examples of a G-CSF include filgrastim and PEG-filgrastim.

A compound of the instant invention may also be administered with an immunologic-enhancing drug, such as levamisole, isoprinosine and Zadaxin.

A compound of the instant invention may also be useful for treating or preventing breast cancer in combination with aromatase inhibitors. Examples of aromatase inhibitors include but are not limited to: anastrozole, letrozole and exemestane.

A compound of the instant invention may also be useful for treating or preventing cancer in combination with other siNA therapeutics.

The compounds of the instant invention may also be administered in combination with γ-secretase inhibitors and/or inhibitors of NOTCH signaling. Such inhibitors include compounds described in WO 01/90084, WO 02/30912, WO 01/70677, WO 03/013506, WO 02/36555, WO 03/093252, WO 03/093264, WO 03/093251, WO 03/093253, WO 2004/039800, WO 2004/039370, WO 2005/030731, WO 2005/014553, U.S. Ser. No. 10/957,251, WO 2004/089911, WO 02/081435, WO 02/081433, WO 03/018543, WO 2004/031137, WO 2004/031139, WO 2004/031138, WO 2004/101538, WO 2004/101539 and WO 02/47671 (including LY-450139).

A compound of the instant invention may also be useful for treating or preventing cancer in combination with PARP inhibitors.

A compound of the instant invention may also be useful for treating cancer in combination with the following therapeutic agents: abarelix (Plenaxis Depot®); aldesleukin (Prokine®); Aldesleukin (Proleukin®); Alemtuzumabb (Campath®); alitretinoin (Panretin®); allopurinol (Zyloprim®); altretamine (Hexylen®); amifostine (Ethyol®); anastrozole (Arimidex®); arsenic trioxide (Trisenox®); asparaginase (Elspar®); azacitidine (Vidaza®); bendamustine hydrochloride (Treanda®); bevacuzimab (Avastin®); bexarotene capsules (Targretin®); bexarotene gel (Targretin®); bleomycin (Blenoxane®); bortezomib (Velcade®); brefeldin A; busulfan intravenous (Busulfex®); busulfan oral (Myleran®); calusterone (Methosarb®); capecitabine (Xeloda®); carboplatin (Paraplatin®); carmustine (BCNU®, BiCNU®); carmustine (Gliadel®); carmustine with Polifeprosan 20 Implant (Gliadel Wafer®); celecoxib (Celebrex); cetuximab (Erbitux®); chlorambucil (Leukeran®); cisplatin (Platinol®); cladribine (Leustatin 2-CdA®); clofarabine (Clolar®); cyclophosphamide (Cytoxan®, Neosar®); cyclophosphamide (Cytoxan Injection®); cyclophosphamide (Cytoxan Tablet®); cytarabine (Cytosar-U®); cytarabine liposomal (DepoCyt®); dacarbazine (DTIC-Dome®); dactinomycin, actinomycin D (Cosmegen®); dalteparin sodium injection (Fragmin®); Darbepoetin alfa (Aranesp®); dasatinib (Sprycel®); daunorubicin liposomal (DanuoXome®); daunorubicin, daunomycin (Daunorubicin®); daunorubicin, daunomycin (Cerubidine®); degarelix (Firmagon®); Denileukin diftitox (Ontak®); dexrazoxane (Zinecard®); dexrazoxane hydrochloride (Totect®); didemnin B; 17-DMAG; docetaxel (Taxotere®); doxorubicin (Adriamycin PFS®); doxorubicin (Adriamycin®, Rubex®); doxorubicin (Adriamycin PFS Injection®); doxorubicin liposomal (Doxil®); dromostanolone propionate (Dromostanolone®); dromostanolone propionate (Masterone Injection®); eculizumab injection (Soliris®); Elliott's B Solution (Elliott's B Solution®); eltrombopag (Promacta®); epirubicin (Ellence®); Epoetin alfa (Epogen®); erlotinib (Tarceva®); estramustine (Emcyt®); ethinyl estradiol; etoposide phosphate (Etopophos®); etoposide, VP-16 (Vepesid®); everolimus tablets (Afinitor®); exemestane (Aromasin®); ferumoxytol (Feraheme Injection®); Filgrastim (Neupogen®); floxuridine (intraarterial) (FUDR®); fludarabine (Fludara®); fluorouracil, 5-FU (Adrucil®); fulvestrant (Faslodex®); gefitinib (Iressa®); geldanamycin; gemcitabine (Gemzar®); gemtuzumab ozogamicin (Mylotarg®); goserelin acetate (Zoladex Implant®); goserelin acetate (Zoladex®); histrelin acetate (Histrelin Implant®); hydroxyurea (Hydrea®); Ibritumomab Tiuxetan (Zevalin®); idarubicin (Idamycin®); ifosfamide (IFEX®); imatinib mesylate (Gleevec®); interferon alfa 2a (Roferon A®); Interferon alfa-22b (Intron A®); iobenguane I 123 injection (AdreView®); irinotecan (Camptosar®); ixabepilone (Ixempra®); lapatinib tablets (Tykerb); lenalidomide (Revlimid®); letrozole (Femara®); leucovorin (Wellcovorin®, Leucovorin®); Leuprolide Acetate (Eligard®); levamisole (Ergamisol®); lomustine, CCNU (CeeBU®); meclorethamine, nitrogen mustard (Mustargen®); megestrol acetate (Megace®); melphalan, L-PAM (Alkeran®); mercaptopurine, 6-MP (Purinethol®); mesna (Mesnex®); mesna (Mesnex Tabs®); methotrexate (Methotrexate®); methoxsalen (Uvadex®); 8-methoxypsoralen; mitomycin C (Mutamycin®); mitotane (Lysodren®); mitoxantrone (Novantrone®); mitramycin; nandrolone phenpropionate (Durabolin-50®); nelarabine (Arranon®); nilotinib (Tasigna®); Nofetumomab (Verluma®); ofatumumab (Arzerra®); Oprelvekin (Neumega®); oxaliplatin (Eloxatin®); paclitaxel (Paxene®); paclitaxel (Taxol®); paclitaxel protein-bound particles (Abraxane®); palifermin (Kepivance®); pamidronate (Aredia®); panitumumab (Vectibix®); pazopanib tablets (Votrienttm®); pegademase (Adagen (Pegademase Bovine)®); pegaspargase (Oncaspar®); Pegfilgrastim (Neulasta®); pemetrexed disodium (Alimta®); pentostatin (Nipent®); pipobroman (Vercyte®); plerixafor (Mozobil®); plicamycin, mithramycin (Mithracin®); porfimer sodium (Photofrin®); pralatrexate injection (Folotyn®); procarbazine (Matulane®); quinacrine (Atabrine®); rapamycin; Rasburicase (Elitek®); raloxifene hydrochloride (Evista®); Rituximab (Rituxan®); romidepsin (Istodax®); romiplostim (Nplate®); sargramostim (Leukine®); Sargramostim (Prokine®); sorafenib (Nexavar); streptozocin (Zanosar®); sunitinib maleate (Sutent®); talc (Sclerosol®); tamoxifen (Nolvadex®); temozolomide (Temodar®); temsirolimus (Torisel®); teniposide, VM-26 (Vumon®); testolactone (Teslac®); thioguanine, 6-TG (Thioguanine®); thiopurine; thiotepa (Thioplex®); topotecan (Hycamtin®); toremifene (Fareston®); Tositumomab (Bexxar®); Tositumomab/I-131 tositumomab (Bexxar®); trans-retinoic acid; Trastuzumab (Herceptin®); tretinoin, ATRA (Vesanoid®); triethylenemelamine; Uracil Mustard (Uracil Mustard Capsules®); valrubicin (Valstar®); vinblastine (Velban®); vincristine (Oncovin®); vinorelbine (Navelbine®); vorinostat (Zolinza®); wortmannin; and zoledronate (Zometa®).

The invention also provides a combination comprising an siNA molecule of the invention comprising at least a 15 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; or formula (A) and/or a pharmaceutically acceptable salt, solvate or physiologically functional derivative thereof together with another CTNNB1 inhibitor.

The combinations referred to above can conveniently be presented for use in the form of a pharmaceutical formulation and thus pharmaceutical compositions comprising a combination as defined above together with a pharmaceutically acceptable diluent or carrier represent a further aspect of the invention.

The individual compounds of such combinations can be administered either sequentially or simultaneously in separate or combined pharmaceutical formulations. In one embodiment, the individual compounds will be administered simultaneously in a combined pharmaceutical formulation.

Thus, the described molecules could be used in combination with one or more known compounds, treatments, or procedures to prevent or treat diseases, disorders, conditions, and traits described herein in a subject or organism as are known in the art, such as other CTNNB1 inhibitors.

3. Therapeutic Applications

The present body of knowledge in CTNNB1 research indicates the need for methods that can regulate CTNNB1 expression for therapeutic use.

Thus, one aspect of the invention comprises a method of treating a subject including, but not limited to, a human suffering from a condition which is mediated by the action, or by loss of action, of CTNNB1 gene expression, which method comprises administering to said subject an effective amount of a double-stranded siNA molecule of the invention. In one embodiment of this aspect, the siNA molecules comprises at least a 15 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; or formula (A). In another embodiment of this aspect, the condition is or is caused by cancer. Thus, in certain embodiments the molecules and compositions of the instant invention are useful in a method for treating cancer. Cancers treatable according to this aspect of the invention include bilary tract cancer, bladder cancer, transitional cell carcinoma, urothelial carcinoma, osteosarcoma, brain cancer, gliomas, astrocytomas, breast carcinoma, metaplastic carcinoma, cervical cancer, cervical squamous cell carcinoma, rectal cancer, colorectal carcinoma, colon cancer, hereditary nonpolyposis colorectal cancer, colorectal adenocarcinomas, gastrointestinal stromal tumors (GISTs), endometrial carcinoma, endometrial stromal sarcomas, esophageal cancer, esophageal squamous cell carcinoma, esophageal adenocarcinoma, ocular melanoma, uveal melanoma, gallbladder carcinomas, gallbladder adenocarcinoma, renal cell carcinoma, clear cell renal cell carcinoma, transitional cell carcinoma, urothelial carcinomas, wilms tumor, leukemia, acute lymocytic leukemia (ALL), acute myeloid leukemia (AML), chronic lymphocytic (CLL), chronic myeloid (CML), chronic myelomonocytic (CMML), liver cancer, liver carcinoma, hepatoma, hepatocellular carcinoma, cholangiocarcinoma, hepatoblastoma, lung cancer, non-small cell lung cancer (NSCLC), mesothelioma, B-cell lymphomas, non-Hodgkin lymphoma, diffuse large B-cell lymphoma, Mantle cell lymphoma, T-cell lymphomas, non-Hodgkin lymphoma, precursor T-lymphoblastic lymphoma/leukemia, peripheral T-cell lymphomas, multiple myeloma, nasopharyngeal carcinoma (NPC), neuroblastoma, oropharyngeal cancer, oral cavity squamous cell carcinomas, osteosarcoma, ovarian carcinoma, pancreatic cancer, pancreatic ductal adenocarcinoma, pseudopapillary neoplasms, acinar cell carcinomas, prostate cancer, prostate adenocarcinoma, skin cancer, melanoma, malignant melanoma, cutaneous melanoma, small intestine carcinomas, stomach cancer, gastric carcinoma, gastrointestinal stromal tumor (GIST), uterine cancer, uterine sarcoma

In one embodiment, the siNA molecules of the instant invention are useful in a method for treating or preventing cancer selected from: brain cancer, breast carcinoma, cervical cancer, colorectal carcinoma, renal cell carcinoma, leukemia, hepatocellular carcinoma, lung cancer, B-cell lymphomas, multiple myeloma, ovarian carcinoma, pancreatic cancer, prostate cancer, melanoma, and gastric carcinoma. In certain embodiments, the compounds of the instant invention are useful for treating breast carcinoma, colorectal carcinoma, hepatocellular carcinoma, lung cancer; and prostate cancer. In a particular embodiment, the compounds of the instant invention are useful for treating hepatocellular carcinoma.

In another embodiment, the siNA molecules of the instant invention are useful in a method for the prevention or modulation of the metastases of cancer cells and cancer. In particular, the siNA molecules of the instant invention are useful in a method to prevent or modulate the metastases of brain cancer, breast carcinoma, cervical cancer, colorectal carcinoma, renal cell carcinoma, leukemia, hepatocellular carcinoma, lung cancer, B-cell lymphomas, multiple myeloma, ovarian carcinoma, pancreatic cancer, prostate cancer, melanoma, and gastric carcinoma.

In certain embodiments, the administration of the siNA molecule is via local administration or systemic administration. In other embodiments, the invention features contacting the subject or organism with an siNA molecule of the invention via local administration to relevant tissues or cells, such as lung cells and tissues, such as via pulmonary delivery. In yet other embodiments, the invention features contacting the subject or organism with an siNA molecule of the invention via systemic administration (such as via intravenous or subcutaneous administration of siNA) to relevant tissues or cells, such as cancerous tissues or cells in a subject or organism.

siNA molecules of the invention are also used as reagents in ex vivo applications. For example, siNA reagents are introduced into tissue or cells that are transplanted into a subject for therapeutic effect. The cells and/or tissue can be derived from an organism or subject that later receives the explant, or can be derived from another organism or subject prior to transplantation. The siNA molecules can be used to modulate the expression of one or more genes in the cells or tissue, such that the cells or tissue obtain a desired phenotype or are able to perform a function when transplanted in vivo. In one embodiment, certain CTNNB1 target cells from a patient are extracted. These extracted cells are contacted with CTNNB1 siNAs targeting a specific nucleotide sequence within the cells under conditions suitable for uptake of the siNAs by these cells (e.g., using delivery reagents such as cationic lipids, liposomes and the like or using techniques such as electroporation to facilitate the delivery of siNAs into cells). The cells are then reintroduced back into the same patient or other patients.

For therapeutic applications, a pharmaceutically effective dose of the siNA molecules or pharmaceutical compositions of the invention is administered to the subject. A pharmaceutically effective dose is that dose required to prevent, inhibit the occurrence, or treat (alleviate a symptom to some extent, preferably all of the symptoms) a disease state. One skilled in the art can readily determine a therapeutically effective dose of the siNA of the invention to be administered to a given subject, by taking into account factors, such as the size and weight of the subject, the extent of the disease progression or penetration, the age, health, and sex of the subject, the route of administration, and whether the administration is regional or systemic. Generally, an amount between 0.1 μg/kg and 100 mg/kg body weight/day of active ingredients is administered dependent upon potency of the negatively charged polymer. Optimal dosing schedules can be calculated from measurements of drug accumulation in the body of the patient. The siNA molecules of the invention can be administered in a single dose or in multiple doses.

siNA molecules of the instant invention can be administered once monthly, once weekly, once daily (QD), or divided into multiple monthly, weekly, or daily doses, such as, for example, but not limitation, twice daily (BID), three times daily (TID), once every two weeks. Persons of ordinary skill in the art can easily estimate repetition rates for dosing based on measured residence times and concentrations of the drug in bodily fluids or tissues.

In addition, the administration can be continuous, i.e., every day, or intermittently. For example, intermittent administration of a compound of the instant invention may be administration one to six days per week or it may mean administration in cycles (e.g. daily administration for two to eight consecutive weeks, then a rest period with no administration for up to one week) or it may mean administration on alternate days.

G. Administration

Compositions or formulations can be administered in a variety of ways. Non-limiting examples of administration methods of the invention include oral, buccal, sublingual, parenteral (i.e., intraarticularly, intravenously, intraperitoneally, subcutaneously, or intramuscularly), local rectal administration or other local administration. In one embodiment, the composition of the invention can be administered by insufflation and inhalation. Administration can be accomplished via single or divided doses. In some embodiments, the pharmaceutical compositions are administered intravenously or intraperitoneally by a bolus injection (see, e.g., U.S. Pat. No. 5,286,634). Lipid nucleic acid particles can be administered by direct injection at the site of disease or by injection at a site distal from the site of disease (see, e.g., Culver, HUMAN GENE THERAPY, MaryAnn Liebert, Inc., Publishers, New York. pp. 70-71 (1994)). In one embodiment, the siNA molecules of the invention and formulations or compositions thereof are administered to a cell, subject, or organism as is described herein and as is generally known in the art.

1. In Vivo Administration

In any of the methods of treatment of the invention, the siNA can be administered to the subject systemically as described herein or otherwise known in the art, either alone as a monotherapy or in combination with additional therapies described herein or as are known in the art. Systemic administration can include, for example, pulmonary (inhalation, nebulization etc.) intravenous, subcutaneous, intramuscular, catheterization, nasopharangeal, transdermal, or oral/gastrointestinal administration as is generally known in the art.

In any of the methods of treatment or prevention of the invention, the siNA can be administered to the subject locally or to local tissues as described herein or otherwise known in the art, either alone as a monotherapy or in combination with additional therapies as are known in the art. Local administration can include, for example, inhalation, nebulization, catheterization, implantation, direct injection, dermal/transdermal application, patches, stenting, ear/eye drops, or portal vein administration to relevant tissues, or any other local administration technique, method or procedure, as is generally known in the art.

In one embodiment, the siNA molecules of the invention and formulations or compositions thereof are administered to the liver as is generally known in the art (see for example Wen et al., 2004, World J. Gastroenterol., 10, 244-9; Murao et al., 2002, Pharm Res., 19, 1808-14; Liu et al., 2003, gene Ther., 10, 180-7; Hong et al., 2003, J Pharm Pharmacol., 54, 51-8; Herrmann et al., 2004, Arch Virol., 149, 1611-7; and Matsuno et al., 2003, gene Ther., 10, 1559-66).

In one embodiment, the invention features the use of methods to deliver the siNA molecules of the instant invention to hematopoietic cells, including monocytes and lymphocytes. These methods are described in detail by Hartmann et al., 1998, J. Phamacol. Exp. Ther., 285(2), 920-928; Kronenwett et al., 1998, Blood, 91(3), 852-862; Filion and Phillips, 1997, Biochim. Biophys. Acta., 1329(2), 345-356; Ma and Wei, 1996, Leuk. Res., 20(11/12), 925-930; and Bongartz et al., 1994, Nucleic Acids Research, 22(22), 4681-8.

In one embodiment, the siNA molecules of the invention and formulations or compositions thereof are administered directly or topically (e.g., locally) to the dermis or follicles as is generally known in the art (see for example Brand, 2001, Curr. Opin. Mol. Ther., 3, 244-8; Regnier et al., 1998, J. Drug Target, 5, 275-89; Kanikkannan, 2002, BioDrugs, 16, 339-47; Wraight et al., 2001, Pharmacol. Ther., 90, 89-104; and Preat and Dujardin, 2001, STP PharmaSciences, 11, 57-68). In one embodiment, the siNA molecules of the invention and formulations or compositions thereof are administered directly or topically using a hydroalcoholic gel formulation comprising an alcohol (e.g., ethanol or isopropanol), water, and optionally including additional agents such isopropyl myristate and carbomer 980. In other embodiments, the siNA are formulated to be administered topically to the nasal cavity. Topical preparations can be administered by one or more applications per day to the affected area; over skin areas occlusive dressings can advantageously be used. Continuous or prolonged delivery can be achieved by an adhesive reservoir system.

In one embodiment, an siNA molecule of the invention is administered iontophoretically, for example to a particular organ or compartment (e.g., the eye, back of the eye, heart, liver, kidney, bladder, prostate, tumor, CNS etc.). Non-limiting examples of iontophoretic delivery are described in, for example, WO 03/043689 and WO 03/030989, which are incorporated by reference in their entireties herein.

In one embodiment, the siNA molecules of the invention and formulations or compositions thereof are administered to the lung as is described herein and as is generally known in the art. In another embodiment, the siNA molecules of the invention and formulations or compositions thereof are administered to lung tissues and cells as is described in U.S. Patent Publication Nos. 2006/0062758; 2006/0014289; and 2004/0077540.

2. Aerosols and Delivery Devices

a. Aerosol Formulations

The compositions of the present invention, either alone or in combination with other suitable components, can be made into aerosol formulations (i.e., they can be “nebulized”) to be administered via inhalation (e.g., intranasally or intratracheally) (see, Brigham et al., Am. J. Sci., 298:278 (1989)). Aerosol formulations can be placed into pressurized acceptable propellants, such as dichlorodifluoromethane, propane, nitrogen, and the like.

In one embodiment, the siNA molecules of the invention and formulations thereof are administered via pulmonary delivery, such as by inhalation of an aerosol or spray dried formulation administered by an inhalation device or nebulizer, providing rapid local uptake of the nucleic acid molecules into relevant pulmonary tissues. Solid particulate compositions containing respirable dry particles of micronized nucleic acid compositions can be prepared by grinding dried or lyophilized nucleic acid compositions, and then passing the micronized composition through, for example, a 400 mesh screen to break up or separate out large agglomerates. A solid particulate composition comprising the siNA compositions of the invention can optionally contain a dispersant which serves to facilitate the formation of an aerosol as well as other therapeutic compounds. A suitable dispersant is lactose, which can be blended with the nucleic acid compound in any suitable ratio, such as a 1 to 1 ratio by weight.

Spray compositions comprising siNA molecules or compositions of the invention can, for example, be formulated as aqueous solutions or suspensions or as aerosols delivered from pressurized packs, such as a metered dose inhaler, with the use of a suitable liquefied propellant. In one embodiment, aerosol compositions of the invention suitable for inhalation can be either a suspension or a solution and generally contain an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; or formula (A), and a suitable propellant such as a fluorocarbon or hydrogen-containing chlorofluorocarbon or mixtures thereof, particularly hydrofluoroalkanes, especially 1,1,1,2-tetrafluoroethane, 1,1,1,2,3,3,3-heptafluoro-n-propane or a mixture thereof. The aerosol composition can optionally contain additional formulation excipients well known in the art such as surfactants. Non-limiting examples include oleic acid, lecithin or an oligolactic acid or derivative such as those described in WO94/21229 and WO98/34596 and co-solvents for example ethanol. In one embodiment a pharmaceutical aerosol formulation of the invention comprising a compound of the invention and a fluorocarbon or hydrogen-containing chlorofluorocarbon or mixtures thereof as propellant, optionally in combination with a surfactant and/or a co-solvent.

The aerosol formulations of the invention can be buffered by the addition of suitable buffering agents.

Aerosol formulations can include optional additives including preservatives if the formulation is not prepared sterile. Non-limiting examples include, methyl hydroxybenzoate, anti-oxidants, flavorings, volatile oils, buffering agents and emulsifiers and other formulation surfactants. In one embodiment, fluorocarbon or perfluorocarbon carriers are used to reduce degradation and provide safer biocompatible non-liquid particulate suspension compositions of the invention (e.g., siNA and/or LNP formulations thereof). In another embodiment, a device comprising a nebulizer delivers a composition of the invention (e.g., siNA and/or LNP formulations thereof) comprising fluorochemicals that are bacteriostatic thereby decreasing the potential for microbial growth in compatible devices.

Capsules and cartridges comprising the composition of the invention for use in an inhaler or insufflator, of for example gelatine, can be formulated containing a powder mix for inhalation of a compound of the invention and a suitable powder base such as lactose or starch. In one embodiment, each capsule or cartridge contains an siNA molecule comprising at least a 15 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; or formula (A), and one or more excipients. In another embodiment, the compound of the invention can be presented without excipients such as lactose

The aerosol compositions of the present invention can be administered into the respiratory system as a formulation including particles of respirable size, e.g. particles of a size sufficiently small to pass through the nose, mouth and larynx upon inhalation and through the bronchi and alveoli of the lungs. In general, respirable particles range from about 0.5 to 10 microns in size. In one embodiment, the particulate range can be from 1 to 5 microns. In another embodiment, the particulate range can be from 2 to 3 microns. Particles of non-respirable size which are included in the aerosol tend to deposit in the throat and be swallowed, and the quantity of non-respirable particles in the aerosol is thus minimized. For nasal administration, a particle size in the range of 10-500 um is preferred to ensure retention in the nasal cavity.

In some embodiments, an siNA composition of the invention is administered topically to the nose for example, for the treatment of rhinitis, via pressurized aerosol formulations, aqueous formulations administered to the nose by pressurized pump or by nebulization. Suitable formulations contain water as the diluent or carrier for this purpose. In certain embodiments, the aqueous formulations for administration of the composition of the invention to the lung or nose can be provided with conventional excipients such as buffering agents, tonicity modifying agents and the like.

b. Devices

The siNA molecules of the invention can be formulated and delivered as particles and/or aerosols as discussed above and dispensed from various aerosolization devices known by those of skill in the art.

Aerosols of liquid or non-liquid particles comprising an siNA molecule or formulation of the invention can be produced by any suitable means, such as with a device comprising a nebulizer (see for example U.S. Pat. No. 4,501,729) such as ultrasonic or air jet nebulizers.

Solid particle aerosols comprising an siNA molecule or formulation of the invention and surfactant can be produced with any solid particulate aerosol generator. One type of solid particle aerosol generator used with the siNA molecules of the invention is an insufflator. A second type of illustrative aerosol generator comprises a metered dose inhaler (“MDI”). MDIs containing siNA molecules or formulations taught herein can be prepared by methods of the art (for example, see Byron, above and WO96/32099).

The siNA molecules can also be formulated as a fluid formulation for delivery from a fluid dispenser, such as those described and illustrated in WO05/044354.

In certain embodiments of the invention, nebulizer devices are used in applications for conscious, spontaneously breathing subjects, and for controlled ventilated subjects of all ages. The nebulizer devices can be used for targeted topical and systemic drug delivery to the lung. In one embodiment, a device comprising a nebulizer is used to deliver an siNA molecule or formulation of the invention locally to lung or pulmonary tissues. In another embodiment, a device comprising a nebulizer is used to deliver a an siNA molecule or formulation of the invention systemically.

H. Other Applications/Uses of siNA Molecules of the Invention

The siNA molecules of the invention can also be used for diagnostic applications, research applications, and/or manufacture of medicants.

In one aspect, the invention features a method for diagnosing a disease, trait, or condition in a subject comprising administering to the subject a composition of the invention under conditions suitable for the diagnosis of the disease, trait, or condition in the subject.

In one embodiment, siNA molecules of the invention are used to down regulate or inhibit the expression of CTNNB1 proteins arising from haplotype polymorphisms that are associated with a trait, disease or condition in a subject or organism. Analysis of CTNNB1 genes, or CTNNB1 protein or RNA levels can be used to identify subjects with such polymorphisms or those subjects who are at risk of developing traits, conditions, or diseases described herein. These subjects are amenable to treatment, for example, treatment with siNA molecules of the invention and any other composition useful in treating diseases related to target gene expression. As such, analysis of CTNNB1 protein or RNA levels can be used to determine treatment type and the course of therapy in treating a subject. Monitoring of CTNNB1 protein or RNA levels can be used to predict treatment outcome and to determine the efficacy of compounds and compositions that modulate the level and/or activity of certain CTNNB1 proteins associated with a trait, disorder, condition, or disease.

In another embodiment, the invention comprises use of a double-stranded nucleic acid according to the invention for use in the manufacture of a medicament. In an embodiment, the medicament is for use in treating a condition that is mediated by the action, or by loss of action, of CTNNB1. In one embodiment, the medicament is for use for the treatment of cancer. In an embodiment, the medicament is for use for the treatment of brain cancer, breast carcinoma, cervical cancer, colorectal carcinoma, renal cell carcinoma, leukemia, hepatocellular carcinoma, lung cancer, B-cell lymphomas, multiple myeloma, ovarian carcinoma, pancreatic cancer, prostate cancer, melanoma, and gastric carcinoma. In a particular embodiment, the compounds of the instant invention are useful for treating hepatocellular carcinoma.

In certain embodiments, siNAs wherein at least one strand comprises at least a 15 nucleotide sequence of SEQ ID NO: 5, SEQ ID NO: 4918, SEQ ID NO: 194, SEQ ID NO: 5107, SEQ ID NO: 196, SEQ ID NO: 5109, SEQ ID NO: 151, or SEQ ID NO: 5064; or formula (A), are for use in a method for treating a cancer, such as, for example but not limitation, brain cancer, breast carcinoma, cervical cancer, colorectal carcinoma, renal cell carcinoma, leukemia, hepatocellular carcinoma, lung cancer, B-cell lymphomas, multiple myeloma, ovarian carcinoma, pancreatic cancer, prostate cancer, melanoma, and gastric carcinoma.

I. Examples

The invention will now be illustrated with the following non-limiting examples. Those of skill in the art will readily recognize a variety of non-critical parameters which can be changed or modified to yield essentially the same results.

Example 1 Design, Synthesis, and Identification of siNAs Active Against CTNNB1

CTNNB1 siNA Synthesis

A series of siNA molecules were designed, synthesized and evaluated for efficacy against CTNNB1 gene expression. Certain CTNNB1 sequences were designed and selected by methods set forth in U.S. Application No. 60/182,604. Other sequences were designed and selected using a proprietary algorithm. The primary criteria for design of certain of the CTNNB1 sequences for human siNAs were (i) homology between two species (human and rhesus monkey) and (ii) high efficacy scores as determined by a proprietary algorithm. The effects of the siNAs on CTNNB1 RNA levels. The target sequences of the siNAs that were selected are set forth in Table 1a (target sequences). The sense and antisense strands of the siNA sequences corresponding to the target sequences in Table 1a are set forth in Table 12b. Various chemically modified siNAs that were synthesized are set forth in Table 1c.

TABLE 1a CTNNB1 Target Sequences, noting human target sites. Target Site SEQ ID Target Sequence (human) NO: 1 UCGAGCUCAGAGGGUACGA 535 1 GAGGCUCUUGUGCGUACUG 1601 2 GCCCAGAAUGCAGUUCGCC 1709 3 CGAGCUCAGAGGGUACGAG 536 4 CUGUUGGAUUGAUUCGAAA 1797 5 GUCUGCUAUUGUACGUACC 853 6 AAUUCUUGGCUAUUACGAC 1143 7 GGAUGUUCACAACCGAAUU 2014 8 ACAGUAUGCAAUGACUCGA 520 9 AGCUUCCAGACACGCUAUC 814 10 UGUCUGCUAUUGUACGUAC 852 11 ACUGUUGGAUUGAUUCGAA 1796 12 CAGGAUACCCAGCGCCGUA 1901 13 GACACGCUAUCAUGCGUUC 822 14 UACUGUUGGAUUGAUUCGA 1795 15 UUCUUGGCUAUUACGACAG 1145 16 ACACGCUAUCAUGCGUUCU 823 17 CAGACACGCUAUCAUGCGU 820 18 UGUUGGAUUGAUUCGAAAU 1798 19 CAGAUCCAAGUCAACGUCU 1380 20 AGGCUCUUGUGCGUACUGU 1602 21 GCGUACUGUCCUUCGGGCU 1612 22 ACUAAUGUCCAGCGUUUGG 626 23 CACAUCCUAGCUCGGGAUG 2000 24 GUUGCUGAGAGGGCUCGAG 2665 25 CAUCUGACCAGCCGACACC 1676 26 UGCGUACUGUCCUUCGGGC 1611 27 ACAAGAUUACAAGAAACGG 2269 28 GUUGUAAACUUGAUUAACU 674 29 UAAACUUGAUUAACUAUCA 678 30 AUAUAAUGAGGACCUAUAC 1245 31 AAACUUGAUUAACUAUCAA 679 32 GAAAUAGUUGAAGGUUGUA 1970 33 AUAAUGAGGACCUAUACUU 1247 34 UUAAAUUCUUGGCUAUUAC 1140 35 UGUAAACUUGAUUAACUAU 676 36 GUAAACUUGAUUAACUAUC 677 37 UUGUAAACUUGAUUAACUA 675 38 GCUUUAGUAAAUAUAAUGA 1235 39 UGGCCACCACCCUGGUGCU 2488 40 CUUUAGUAAAUAUAAUGAG 1236 41 UUUAGUAAAUAUAAUGAGG 1237 42 GUAAAUCGUCCUUUAGGUA 2555 43 ACCUCACUUGCAAUAAUUA 1545 44 UACCAUUCCAUUGUUUGUG 2050 45 UCCAAAGAGUAGCUGCAGG 2097 46 UAUCCAGUUGAUGGGCUGC 2510 47 CAUGCAGAAUACAAAUGAU 871 48 CCAAAGAGUAGCUGCAGGG 2098 49 CACCAUCCCACUGGCCUCU 1767 50 ACCAUGCAGAAUACAAAUG 869 51 AAGACAUCACUGAGCCUGC 1641 52 AAUCAGCUGGCCUGGUUUG 2582 53 AACCUCACUUGCAAUAAUU 1544 54 ACCUCAUGGAUGGGCUGCC 2550 55 ACCAUUCCAUUGUUUGUGC 2051 56 CCAUGCAGAAUACAAAUGA 870 57 CUUCGUCAUCUGACCAGCC 1670 58 CUGUGAACUUGCUCAGGAC 2122 59 AGACAUCACUGAGCCUGCC 1642 60 GAGCCAAUGGCUUGGAAUG 2324 61 ACUGAGCCUGCCAUCUGUG 1649 62 AUUGAAGCUGAGGGAGCCA 2159 63 GUUAUGGUCCAUCAGCUUU 785 64 AAUGUGGUCACCUGUGCAG 1511 65 AGCUGGCCUGGUUUGAUAC 2586 66 UGGCUGAACCAUCACAGAU 642 67 CACCCACCAUCCCACUGGC 1763 68 CAAUGGCUUGGAAUGAGAC 2328 69 UGGACCACAAGCAGAGUGC 1280 70 CCAUUCCAUUGUUUGUGCA 2052 71 CAGGACCUCAUGGAUGGGC 2546 72 GUGAACUUGCUCAGGACAA 2124 73 CCAGGACCUCAUGGAUGGG 2545 74 GGCUGAACCAUCACAGAUG 643 75 GGUGCUGACUAUCCAGUUG 2501 76 AUGGCUUGGAAUGAGACUG 2330 77 GGGAAGACAUCACUGAGCC 1638 78 UGGUGACAGGGAAGACAUC 1630 79 UGCUCAUCCCACUAAUGUC 616 80 CUAUCCAGUUGAUGGGCUG 2509 81 GGACCUCAUGGAUGGGCUG 2548 82 CCCACUGGCCUCUGAUAAA 1773 83 UCCGAAUGUCUGAGGACAA 2247 84 UGGCUUGGAAUGAGACUGC 2331 85 UUCAGAUGAUAUAAAUGUG 1498 86 CCACAAGAUUACAAGAAAC 2267 87 CUCACUUGCAAUAAUUAUA 1547 88 CACUUGCAAUAAUUAUAAG 1549 89 GUACCAUGCAGAAUACAAA 867 90 UCAACGUCUUGUUCAGAAC 1390 91 AUCCCAUCUACACAGUUUG 593 92 UACUCAAGCUGAUUUGAUG 274 93 ACCAGGUGGUGGUUAAUAA 759 94 GCUGCAACUAAACAGGAAG 1439 95 UGGAUUGAUUCGAAAUCUU 1801 96 CAGAUGAUAUAAAUGUGGU 1500 97 AUGGUGUCUGCUAUUGUAC 848 98 CACAAGAUUACAAGAAACG 2268 99 CAAAUGAUGUAGAAACAGC 882 100 GCCACAAGAUUACAAGAAA 2266 101 UACAAAUGAUGUAGAAACA 880 102 UCGAAAUCUUGCCCUUUGU 1810 103 GAUUAACUAUCAAGAUGAU 685 104 CCAGUGGAUUCUGUGUUGU 1007 105 AAAGGCUACUGUUGGAUUG 1789 106 ACAAGUAGCUGAUAUUGAU 499 107 GAUGGAACAUGAGAUGGGU 2470 108 UCAAGAUGAUGCAGAACUU 694 109 CAAGCUGAUUUGAUGGAGU 278 110 UGGACUCUCAGGAAUCUUU 1415 111 UAAAUACCAUUCCAUUGUU 2046 112 AUUACAUCAAGAAGGAGCU 1057 113 UCAGGAAUCUUUCAGAUGC 1422 114 UGAUUAACUAUCAAGAUGA 684 115 ACUUCACUCUAGGAAUGAA 2197 116 AACAUGCAGUUGUAAACUU 666 117 AAGCUGAUUUGAUGGAGUU 279 118 UCUGGGUUCAGAUGAUAUA 1492 119 UUACUUCACUCUAGGAAUG 2195 120 AGGAAUCUUUCAGAUGCUG 1424 121 GCUGAAACAUGCAGUUGUA 661 122 GUUGCUUGUUCGUGCACAU 1882 123 GGAAGAAAUAGUUGAAGGU 1966 124 AGGACAAGCCACAAGAUUA 2259 125 CAUGCGUUCUCCUCAGAUG 832 126 GAUGAUCCCAGCUACCGUU 2346 127 AGCCUGCCAUCUGUGCUCU 1653 128 UGGAUAUCGCCAGGAUGAU 2389 129 UCUUCGUCAUCUGACCAGC 1669 130 UGUGAACUUGCUCAGGACA 2123 131 CCUGUGCAGCUGGAAUUCU 1521 132 UGAACUUGCUCAGGACAAG 2125 133 UGCUGACUAUCCAGUUGAU 2503 134 GAUGAUAUAAAUGUGGUCA 1502 135 GUGCUGACUAUCCAGUUGA 2502 136 UGACUAUCCAGUUGAUGGG 2506 137 AACUUGCUCAGGACAAGGA 2127 138 CUGACUAUCCAGUUGAUGG 2505 139 GCUCAUCCCACUAAUGUCC 617 140 GCUGACUAUCCAGUUGAUG 2504 141 AUGAUAUAAAUGUGGUCAC 1503 142 CUCAUCCCACUAAUGUCCA 618 143 GCUUUAUUCUCCCAUUGAA 2074 144 CUGGUGCUGACUAUCCAGU 2499 145 AACUGUCUUUGGACUCUCA 1406 146 AGGGCAUGCAGAUCCCAUC 582 147 GAUAUAAAUGUGGUCACCU 1505 148 UUCAGAUGCUGCAACUAAA 1432 149 AAGAAAUAGUUGAAGGUUG 1968 150 CCAGGAUGAUCCUAGCUAU 2398 151 UGGCCAUCUUUAAGUCUGG 954 152 AGCUGAUAUUGAUGGACAG 505 153 UCGGGAUGUUCACAACCGA 2011 154 UGUAGAAGCUGGUGGAAUG 1339 155 UAAAUAUAAUGAGGACCUA 1242 156 CUGAGACAUUAGAUGAGGG 567 157 AGUAAAUAUAAUGAGGACC 1240 158 UGGAUACCUCCCAAGUCCU 438 159 AGGAUGCCUUGGGUAUGGA 2445 160 AUUGUACGUACCAUGCAGA 860 161 UUUGGACUCUCAGGAAUCU 1413 162 UUGGAUUGAUUCGAAAUCU 1800 163 UCAGAGGACUAAAUACCAU 2037 164 CCAGGAUGCCUUGGGUAUG 2443 165 AUGGAACAUGAGAUGGGUG 2471 166 GGCUACUGUUGGAUUGAUU 1792 167 AGGACCUCAUGGAUGGGCU 2547 168 UCUGUGCUCUUCGUCAUCU 1662 169 UGAUGGAGUUGGACAUGGC 288 170 AUGAGGGCAUGCAGAUCCC 579 171 ACUAUCCAGUUGAUGGGCU 2508 172 UGAGGGCAUGCAGAUCCCA 580 173 UUGGAUAUCGCCAGGAUGA 2388 174 GCCCAGGACCUCAUGGAUG 2543 175 AACUUGCCACACGUGCAAU 708 176 CCCAAGUCCUGUAUGAGUG 447 177 CACAGAUGCUGAAACAUGC 654 178 CUGGGACCUUGCAUAACCU 912 179 AGUGGAUUCUGUGUUGUUU 1009 180 AAUGCAAGCUUUAGGACUU 1354 181 AGAAAUAGUUGAAGGUUGU 1969 182 UCCGCAUGGAAGAAAUAGU 1959 183 GCUAUGUUCCCUGAGACAU 557 184 UCUGAGUGGUAAAGGCAAU 403 185 UGCAAGCUUUAGGACUUCA 1356 186 UGGACAGUAUGCAAUGACU 517 187 UUAGUAAAUAUAAUGAGGA 1238 188 CUCAGAUGGUGUCUGCUAU 843 189 AGAACAAGUAGCUGAUAUU 496 190 CUUGGAUAUCGCCAGGAUG 2387 191 CAUCUGUGCUCUUCGUCAU 1660 192 CCCUGGUGCUGACUAUCCA 2497 193 ACGACUAGUUCAGUUGCUU 1870 194 UCUUGGACUUGAUAUUGGU 2353 195 GGAUGAUCCUAGCUAUCGU 2401 196 AAUACAAAUGAUGUAGAAA 878 197 GAACCAUCACAGAUGCUGA 647 198 UUCACAUCCUAGCUCGGGA 1998 199 UGCAGAUCCCAUCUACACA 588 200 GGACUAAAUACCAUUCCAU 2042 201 CUGCUAUUGUACGUACCAU 855 202 CAGAGGACUAAAUACCAUU 2038 203 GAUAAAGGCUACUGUUGGA 1786 204 AGAUGAUAUAAAUGUGGUC 1501 205 AAAUCAUGCACCUUUGCGU 1834 206 ACGACAGACUGCCUUCAAA 1157 207 UAGUAAAUAUAAUGAGGAC 1239 208 UAAUGAGGACCUAUACUUA 1248 209 UGCUGAAACAUGCAGUUGU 660 210 AUUUGAUGGAGUUGGACAU 285 211 CUGCCAAGUGGGUGGUAUA 1582 212 UGGACUACCAGUUGUGGUU 1735 213 UUAAUAAGGCUGCAGUUAU 771 214 ACAUCAAGAAGGAGCUAAA 1060 215 GGAUAUCGCCAGGAUGAUC 2390 216 CUGACAGAGUUACUUCACU 2186 217 GUGACAGGGAAGACAUCAC 1632 218 UCAUCCCACUAAUGUCCAG 619 219 CUGCCAUCUGUGCUCUUCG 1656 220 AUAUAAAUGUGGUCACCUG 1506 221 CCACCCUGGUGCUGACUAU 2494 222 UGCUCUUCGUCAUCUGACC 1666 223 ACAGGGAAGACAUCACUGA 1635 224 AGUUGGACAUGGCCAUGGA 294 225 UUGGCUGAACCAUCACAGA 641 226 UAGAUGAGGGCAUGCAGAU 576 227 AGAUGAGGGCAUGCAGAUC 577 228 AUCUGUGCUCUUCGUCAUC 1661 229 GAACUUGCCACACGUGCAA 707 230 CCAUCUGUGCUCUUCGUCA 1659 231 AUGGCAACCAAGAAAGCAA 1185 232 GAAACAUGCAGUUGUAAAC 664 233 UGGUUAAGCUCUUACACCC 1749 234 AGCUUUAGUAAAUAUAAUG 1234 235 CUAUCAAGAUGAUGCAGAA 691 236 AAGUCAACGUCUUGUUCAG 1387 237 GAUCCAAGUCAACGUCUUG 1382 238 CUAUCAUGCGUUCUCCUCA 828 239 AAUAUAAUGAGGACCUAUA 1244 240 GUGCUAUCUGUCUGCUCUA 1304 241 GAAGCUUCCAGACACGCUA 812 242 UAAUUAUAAGAACAAGAUG 1558 243 AUACAAAUGAUGUAGAAAC 879 244 CUGUCUGCUCUAGUAAUAA 1311 245 UGCUAUUGUACGUACCAUG 856 246 UGCUGAAGGUGCUAUCUGU 1296 247 UCUUUAAGUCUGGAGGCAU 960 248 AUACCAUUCCAUUGUUUGU 2049 249 AGGCUACUGUUGGAUUGAU 1791 250 CAGUUAUGGUCCAUCAGCU 783 251 ACAAGAUGAUGGUCUGCCA 1569 252 GACAUAUGCAGCUGCUGUU 2224 253 CCAUCAUCGUGAGGGCUUA 934 254 GACAGAUCCAAGUCAACGU 1378 255 GAGACAUUAGAUGAGGGCA 569 256 UUCGCCUUCACUAUGGACU 1722 257 UGUUCAGCUUCUGGGUUCA 1483 258 AUCUUGGACUUGAUAUUGG 2352 259 CGUGCAAUCCCUGAACUGA 719 260 AGGUGGUGGUUAAUAAGGC 762 261 UCUACACAGUUUGAUGCUG 599 262 AGAUGGCCCAGAAUGCAGU 1704 263 CAAGAUUACAAGAAACGGC 2270 264 CUGAAACAUGCAGUUGUAA 662 265 CUCCUUCUCUGAGUGGUAA 396 266 AGCAAGCUCAUCAUACUGG 1199 267 AUUAUAAGAACAAGAUGAU 1560 268 UCUGUCUGCUCUAGUAAUA 1310 269 AAGCUUUAGUAAAUAUAAU 1233 270 GCCGGCUAUUGUAGAAGCU 1330 271 UGUCUGCUCUAGUAAUAAG 1312 272 AAUAAUUAUAAGAACAAGA 1556 273 UAUGGCCAGGAUGCCUUGG 2438 274 UGUCCCGCAAAUCAUGCAC 1826 275 CUUGUUCAGAACUGUCUUU 1397 276 GCUGUGAUACGAUGCUUCA 3181 277 GCGCCGUACGUCCAUGGGU 1912 278 AGAUGGUGUCUGCUAUUGU 846 279 AGAACUGUCUUUGGACUCU 1404 280 CAUGCAGAUCCCAUCUACA 586 281 CUCCUUGGGACUCUUGUUC 1469 282 GGUGCCACUACCACAGCUC 380 283 AGCUGGUGGAAUGCAAGCU 1345 284 CCAUUCCACGACUAGUUCA 1863 285 CAGCGUUUGGCUGAACCAU 635 286 AUCUUUAAGUCUGGAGGCA 959 287 UGGCCAGGAUGCCUUGGGU 2440 288 GAAUACAAAUGAUGUAGAA 877 289 UGGAUGGGCUGCCUCCAGG 2556 290 CGUACGUCCAUGGGUGGGA 1916 291 GGUGUCUGCUAUUGUACGU 850 292 GGUGCUAUCUGUCUGCUCU 1303 293 CCUUCACUAUGGACUACCA 1726 294 GACUCUUGUUCAGCUUCUG 1477 295 AUCUACACAGUUUGAUGCU 598 296 GUUUGUGCAGCUGCUUUAU 2062 297 CAAGAAACGGCUUUCAGUU 2278 298 GUUCAGUUGCUUGUUCGUG 1877 299 UCAGAUGAUAUAAAUGUGG 1499 300 AAUGUUAAAUUCUUGGCUA 1136 301 UGGGUUCAGAUGAUAUAAA 1494 302 AAUAGUUGAAGGUUGUACC 1972 303 CAUGCAGUUGUAAACUUGA 668 304 AAUCUGAAUAAAGUGUAAC 2945 305 CACCACCCUGGUGCUGACU 2492 306 GAGUUGGACAUGGCCAUGG 293 307 AUACCCAGCGCCGUACGUC 1905 308 GAGGGCUUACUGGCCAUCU 944 309 GAGGGCAUGCAGAUCCCAU 581 310 GAAGGGAUGGAAGGUCUCC 1454 311 GUCUGAGGACAAGCCACAA 2254 312 UCAUGCACCUUUGCGUGAG 1837 313 GGAAUCUUUCAGAUGCUGC 1425 314 UCACCUGACAGAUCCAAGU 1372 315 CUGAAGGUGCUAUCUGUCU 1298 316 GUCAUCUGACCAGCCGACA 1674 317 CAUUCCACGACUAGUUCAG 1864 318 UGAUCCUAGCUAUCGUUCU 2404 319 GAGCCCUUCACAUCCUAGC 1992 320 GAUGAGGGCAUGCAGAUCC 578 321 AUGGGUAGGGUAAAUCAGU 3091 322 GUGCAAUCCCUGAACUGAC 720 323 AUUCCAUUGUUUGUGCAGC 2054 324 CAUUCUGGUGCCACUACCA 374 325 UACCAUGCAGAAUACAAAU 868 326 AUGCAGUUCGCCUUCACUA 1716 327 UUACUGGCCAUCUUUAAGU 950 328 GCUUCUGGGUUCAGAUGAU 1489 329 CAGGAAGGGAUGGAAGGUC 1451 330 GCUUAUGGCAACCAAGAAA 1181 331 UGACAGGGAAGACAUCACU 1633 332 AUCGCCAGGAUGAUCCUAG 2394 333 AGUAAUAAGCCGGCUAUUG 1322 334 AAUGAUGUAGAAACAGCUC 884 335 UCUGAGGACAAGCCACAAG 2255 336 GGUCUCCUUGGGACUCUUG 1466 337 UGUUCAGAACUGUCUUUGG 1399 338 CUGGUGCCACUACCACAGC 378 339 GUCCAUGGGUGGGACACAG 1921 340 GUGCGUUUAGCUGGUGGGC 1085 341 ACGUACCAUGCAGAAUACA 865 342 GAUGUUCACAACCGAAUUG 2015 343 AGAAAGCAAGCUCAUCAUA 1195 344 GUUCAGCUUCUGGGUUCAG 1484 345 GCAGGGUGCCAUUCCACGA 1855 346 UAGAAGCUGGUGGAAUGCA 1341 347 CAUGGAAGAAAUAGUUGAA 1963 348 UGAUAUUGGUGCCCAGGGA 2362 349 GGCAUGCAGAUCCCAUCUA 584 350 CGUACUGUCCUUCGGGCUG 1613 351 UUACGACAGACUGCCUUCA 1155 352 UAGUCACUGGCAGCAACAG 334 353 GCCAUUACAACUCUCCACA 1031 354 GCCUUCACUAUGGACUACC 1725 355 GUUCACAACCGAAUUGUUA 2018 356 GGGACCUUGCAUAACCUUU 914 357 AAGCCACAAGAUUACAAGA 2264 358 GCAGCAACAGUCUUACCUG 343 359 UAUUACAUCAAGAAGGAGC 1056 360 UAAUAAGGCUGCAGUUAUG 772 361 GGUGGUGGUUAAUAAGGCU 763 362 UAAUGUCCAGCGUUUGGCU 628 363 CUUCUCUGAGUGGUAAAGG 399 364 ACCAGCCGACACCAAGAAG 1682 365 AUACCUCCCAAGUCCUGUA 441 366 UCACUAUGGACUACCAGUU 1729 367 AGGAUACCCAGCGCCGUAC 1902 368 AGGGAAGACAUCACUGAGC 1637 369 GAUAUCGCCAGGAUGAUCC 2391 370 AAGUAGCUGAUAUUGAUGG 501 371 CAAGCUUUAGGACUUCACC 1358 372 CCCUUUGUCCCGCAAAUCA 1821 373 UUAGAUGAGGGCAUGCAGA 575 374 CAAUGACUCGAGCUCAGAG 528 375 GUGGAUAUGGCCAGGAUGC 2433 376 GUUCAGAUGAUAUAAAUGU 1497 377 UCAGGACAAGGAAGCUGCA 2134 378 UUGAAGCUGAGGGAGCCAC 2160 379 UGGAGUUGGACAUGGCCAU 291 380 AGAUGCUGAAACAUGCAGU 657 381 UGAUGGUCUGCCAAGUGGG 1575 382 ACAUGCAGUUGUAAACUUG 667 383 CAGAGUUACUUCACUCUAG 2190 384 GACUCGAGCUCAGAGGGUA 532 385 CUGGCCAUCUUUAAGUCUG 953 386 UACGAUGCUUCAAGAGAAA 3188 387 UGACCAGCUCUCUCUUCAG 2301 388 CUCUCUUCAGAACAGAGCC 2310 389 GCUUUCAGUUGAGCUGACC 2287 390 GGGUGGGACACAGCAGCAA 1927 391 UGCCACACGUGCAAUCCCU 712 392 UCUGUGAACUUGCUCAGGA 2121 393 UGAGUAAUGGUGUAGAACA 2898 394 GUUGGAUUGAUUCGAAAUC 1799 395 UACAACUCUCCACAACCUU 1036 396 CAAGUCCUGUAUGAGUGGG 449 397 AGGAAGGGAUGGAAGGUCU 1452 398 AGCUCAUCAUACUGGCUAG 1203 399 GCAAGCUUUAGGACUUCAC 1357 400 AUGUGGUCACCUGUGCAGC 1512 401 ACUCAAGCUGAUUUGAUGG 275 402 GACAUGGCCAUGGAACCAG 299 403 GUAAAUAUAAUGAGGACCU 1241 404 CGCAUGGAAGAAAUAGUUG 1961 405 GAUGCUGCAACUAAACAGG 1436 406 UGAUGGAACAUGAGAUGGG 2469 407 CCAGGUGGUGGUUAAUAAG 760 408 UGAGGACAAGCCACAAGAU 2257 409 ACUGGCCAUCUUUAAGUCU 952 410 AACGGCUUUCAGUUGAGCU 2283 411 CUACUGUUGGAUUGAUUCG 1794 412 GUUGUGGUUAAGCUCUUAC 1745 413 AUACUGGCUAGUGGUGGAC 1211 414 GACCUCAUGGAUGGGCUGC 2549 415 UAGCUCGGGAUGUUCACAA 2007 416 GAACAUGAGAUGGGUGGCC 2474 417 CAGAAUGCAGUUCGCCUUC 1712 418 ACGUCCAUGGGUGGGACAC 1919 419 UGGUUCACCAGUGGAUUCU 1000 420 AUAUCGCCAGGAUGAUCCU 2392 421 AACAGGAAGGGAUGGAAGG 1449 422 GUUGAGCUGACCAGCUCUC 2294 423 AAAUGUUAAAUUCUUGGCU 1135 424 GGCUAUUGUAGAAGCUGGU 1333 425 CAGUUGUGGUUAAGCUCUU 1743 426 CUACACAGUUUGAUGCUGC 600 427 UGGAGGCAUUCCUGCCCUG 970 428 GGACAGUUUACCAGUUGCC 3137 429 UCCAUUCUGGUGCCACUAC 372 430 UACACCCACCAUCCCACUG 1761 431 CUGAGCCUGCCAUCUGUGC 1650 432 GAGGCAUUCCUGCCCUGGU 972 433 CUUGGCUAUUACGACAGAC 1147 434 CCCUGAGACAUUAGAUGAG 565 435 AUGCAAUGACUCGAGCUCA 525 436 UAGAGGCUCUUGUGCGUAC 1599 437 UUCACUCUAGGAAUGAAGG 2199 438 GACAAGCCACAAGAUUACA 2261 439 CAGAACUUGCCACACGUGC 705 440 GACCUUGCAUAACCUUUCC 916 441 CACUACCACAGCUCCUUCU 385 442 CUAUUUGGGAUAUGUAUGG 3076 443 UCUUGUUCAGAACUGUCUU 1396 444 GAUGCCUUGGGUAUGGACC 2447 445 UUGUAGAAGCUGGUGGAAU 1338 446 AGGUGUGGCGACAUAUGCA 2215 447 GCAAUCCCUGAACUGACAA 722 448 UGCUCUAGUAAUAAGCCGG 1316 449 CCGACACCAAGAAGCAGAG 1687 450 AGAUGAUGCAGAACUUGCC 697 451 UUGAUGGGCUGCCAGAUCU 2517 452 AGCCGACACCAAGAAGCAG 1685 453 UAUGGGUAGGGUAAAUCAG 3090 454 CUCAUCAUACUGGCUAGUG 1205 455 UAUUACGACAGACUGCCUU 1153 456 CAAUCCCUGAACUGACAAA 723 457 UCUCCUUGGGACUCUUGUU 1468 458 GAGAUGGGUGGCCACCACC 2480 459 CAGGGUGCCAUUCCACGAC 1856 460 AGUUACUUCACUCUAGGAA 2193 461 UUGGACUUGAUAUUGGUGC 2355 462 CCCUUCACAUCCUAGCUCG 1995 463 AGACACGCUAUCAUGCGUU 821 464 AAUGCAGUUCGCCUUCACU 1715 465 CUUAUGGCAACCAAGAAAG 1182 466 CUCCCAAGUCCUGUAUGAG 445 467 CUUACACCCACCAUCCCAC 1759 468 UGGAAGGUCUCCUUGGGAC 1461 469 AGCCCUUCACAUCCUAGCU 1993 470 GAUGGGCUGCCUCCAGGUG 2558 471 AGCUUCUGGGUUCAGAUGA 1488 472 GAGCCUGCCAUCUGUGCUC 1652 473 UUAAGUCUGGAGGCAUUCC 963 474 ACCUGUGCAGCUGGAAUUC 1520 475 UCCCGCAAAUCAUGCACCU 1828 476 AAGGUGUGGCGACAUAUGC 2214 477 AGCUAUUGAAGCUGAGGGA 2155 478 GUUAGUCACUGGCAGCAAC 332 479 UUCAGUUGCUUGUUCGUGC 1878 480 GAUGAUGGUCUGCCAAGUG 1573 481 CUAAACAGGAAGGGAUGGA 1446 482 CCACGACUAGUUCAGUUGC 1868 483 ACUAGUUCAGUUGCUUGUU 1873 484 GUUCACCAGUGGAUUCUGU 1002 485 GUGGUAAAGGCAAUCCUGA 408 486 UUGAUGGAGUUGGACAUGG 287 487 ACUUGCUCAGGACAAGGAA 2128 488 CCAGUUGAUGGGCUGCCAG 2513 489 GAAAGCAAGCUCAUCAUAC 1196 490 ACAUUAGAUGAGGGCAUGC 572 491 UCCCACUAAUGUCCAGCGU 622 492 GGCAACCAAGAAAGCAAGC 1187 493 AAAUAGUUGAAGGUUGUAC 1971 494 GGAUAUGUAUGGGUAGGGU 3083 495 UAAUCUGAAUAAAGUGUAA 2944 496 UGCACAUCAGGAUACCCAG 1894 497 GUAAUAAGCCGGCUAUUGU 1323 498 AAGCUCAUCAUACUGGCUA 1202 499 ACGUGCAAUCCCUGAACUG 718 500 AGUUGUGGUUAAGCUCUUA 1744 501 AGGACCAGGUGGUGGUUAA 756 502 GCUCUAGUAAUAAGCCGGC 1317 503 GAUUUGAUGGAGUUGGACA 284 504 UGAUGUAGAAACAGCUCGU 886 505 CUGGUGGAUAUGGCCAGGA 2430 506 CAUCAUACUGGCUAGUGGU 1207 507 GAUCCCAUCUACACAGUUU 592 508 CACGCUAUCAUGCGUUCUC 824 509 GACAGUAUGCAAUGACUCG 519 510 AAGUUGUUGUAACCUGCUG 3166 511 GCUAUUACGACAGACUGCC 1151 512 GCCUCCAGGUGACAGCAAU 2566 513 UCCUGUAUGAGUGGGAACA 453 514 AUGCAGAUCCCAUCUACAC 587 515 UUUCCCAUCAUCGUGAGGG 930 516 CCAAGUGGGUGGUAUAGAG 1585 517 GGACCUUGCAUAACCUUUC 915 518 UCCCAAGUCCUGUAUGAGU 446 519 CACGACUAGUUCAGUUGCU 1869 520 CCGCAUGGAAGAAAUAGUU 1960 521 GGCCCAGAAUGCAGUUCGC 1708 522 CCAUGGAACCAGACAGAAA 306 523 GAAACGGCUUUCAGUUGAG 2281 524 GGGAUAUGUAUGGGUAGGG 3082 525 UUGGGACUCUUGUUCAGCU 1473 526 UAUGUUCCCUGAGACAUUA 559 527 GGACUCUCAGGAAUCUUUC 1416 528 AAGCUGCAGAAGCUAUUGA 2145 529 GCCCUUCACAUCCUAGCUC 1994 530 AGAGAUGGCCCAGAAUGCA 1702 531 GCAAUCCUGAGGAAGAGGA 417 532 CAGGAUGCCUUGGGUAUGG 2444 533 CUGCUAUGUUCCCUGAGAC 555 534 UUCACAACCGAAUUGUUAU 2019 535 AAAGCAAGCUCAUCAUACU 1197 536 AGGCAAUCCUGAGGAAGAG 415 537 UGUUUGUGCAGCUGCUUUA 2061 538 GGAAUGCAAGCUUUAGGAC 1352 539 CCGGCUAUUGUAGAAGCUG 1331 540 AAUAAGCCGGCUAUUGUAG 1325 541 UCAGCUUCUGGGUUCAGAU 1486 542 CCUGUAUGAGUGGGAACAG 454 543 CACUCAAGAACAAGUAGCU 490 544 CCUUCACAUCCUAGCUCGG 1996 545 AUGCACCUUUGCGUGAGCA 1839 546 UGUUCGUGCACAUCAGGAU 1888 547 UCAGUUGCUUGUUCGUGCA 1879 548 CCCGCAAAUCAUGCACCUU 1829 549 GCUGAUUUGAUGGAGUUGG 281 550 AUAGAGGCUCUUGUGCGUA 1598 551 CAGGACAAGGAAGCUGCAG 2135 552 AGCUCUUACACCCACCAUC 1755 553 CAUCACAGAUGCUGAAACA 651 554 CUAUUGUAGAAGCUGGUGG 1335 555 AUGCCCAGGACCUCAUGGA 2541 556 UGACUCGAGCUCAGAGGGU 531 557 AGUUUGAUGCUGCUCAUCC 606 558 UCCUUCGGGCUGGUGACAG 1620 559 AUGAAGGUGUGGCGACAUA 2211 560 AGUUGAGCUGACCAGCUCU 2293 561 CUGUAUGAGUGGGAACAGG 455 562 CUCAGAGGGUACGAGCUGC 540 563 GGCAAUCCUGAGGAAGAGG 416 564 CAUACUGGCUAGUGGUGGA 1210 565 ACAAGCCACAAGAUUACAA 2262 566 GCUCUUGUGCGUACUGUCC 1604 567 AUGUGGAUACCUCCCAAGU 435 568 UUGUUUGUGCAGCUGCUUU 2060 569 ACAUAUGCAGCUGCUGUUU 2225 570 UCAGUCCUUCACUCAAGAA 481 571 ACCUUGCAUAACCUUUCCC 917 572 GGCGACAUAUGCAGCUGCU 2221 573 UGGUGUCUGCUAUUGUACG 849 574 GUUCCCUGAGACAUUAGAU 562 575 AUAAAGGCUACUGUUGGAU 1787 576 GUGCCAUUCCACGACUAGU 1860 577 UGGGUGGUAUAGAGGCUCU 1590 578 GGCCAUCUUUAAGUCUGGA 955 579 UAUUGGUGCCCAGGGAGAA 2365 580 CUCGAGCUCAGAGGGUACG 534 581 AGAACUUGCCACACGUGCA 706 582 UACCAGUUGUGGUUAAGCU 1740 583 CGUUUGGCUGAACCAUCAC 638 584 GCUAUUGUAGAAGCUGGUG 1334 585 GGAGGCAUUCCUGCCCUGG 971 586 ACCACCCUGGUGCUGACUA 2493 587 AAUCUUGCCCUUUGUCCCG 1814 588 CGUUUAGCUGGUGGGCUGC 1088 589 CAGUUGAGCUGACCAGCUC 2292 590 UGAUAUAAAUGUGGUCACC 1504 591 CUGAGUGGUAAAGGCAAUC 404 592 AAGGUGCUAUCUGUCUGCU 1301 593 UCCUAGCUCGGGAUGUUCA 2004 594 UCAAGCUGAUUUGAUGGAG 277 595 CCAGCUCUCUCUUCAGAAC 2304 596 ACAUGGCCAUGGAACCAGA 300 597 UACCCAGCGCCGUACGUCC 1906 598 AUAGUUGAAGGUUGUACCG 1973 599 AGCUUUAGGACUUCACCUG 1360 600 ACAUCCAAAGAGUAGCUGC 2094 601 UUGCAUAACCUUUCCCAUC 920 602 UGGCCCAGAAUGCAGUUCG 1707 603 AUUCGAAAUCUUGCCCUUU 1808 604 AUAAGCCGGCUAUUGUAGA 1326 605 CGACAGACUGCCUUCAAAU 1158 606 UGCAGUUAUGGUCCAUCAG 781 607 GUUUGAUGCUGCUCAUCCC 607 608 CUAAUGUCCAGCGUUUGGC 627 609 CAAGUAGCUGAUAUUGAUG 500 610 UCUGACAGAGUUACUUCAC 2185 611 GGUGGUAUAGAGGCUCUUG 1592 612 GACCAGGUGGUGGUUAAUA 758 613 CCUCAUGGAUGGGCUGCCU 2551 614 UGUCUUUGGACUCUCAGGA 1409 615 GAACAAGUAGCUGAUAUUG 497 616 GUGCCACUACCACAGCUCC 381 617 GCACCUUUGCGUGAGCAGG 1841 618 GACUUCACCUGACAGAUCC 1368 619 AAAUACCAUUCCAUUGUUU 2047 620 CUCAAGAACAAGUAGCUGA 492 621 UCCUCUGUGAACUUGCUCA 2118 622 UCUGGAGGCAUUCCUGCCC 968 623 AAGUCUGGAGGCAUUCCUG 965 624 UUGAAGGUUGUACCGGAGC 1977 625 ACAUCCUAGCUCGGGAUGU 2001 626 ACCAAGAAAGCAAGCUCAU 1191 627 UUUGGCUGAACCAUCACAG 640 628 CACACGUGCAAUCCCUGAA 715 629 GCUCAUCAUACUGGCUAGU 1204 630 GGGUAGGGUAAAUCAGUAA 3093 631 UUCACCUGACAGAUCCAAG 1371 632 UGGUAAAGGCAAUCCUGAG 409 633 GAUCCUAGCUAUCGUUCUU 2405 634 UUCGUCAUCUGACCAGCCG 1671 635 AAUCUUUCAGAUGCUGCAA 1427 636 UGCAGUUCGCCUUCACUAU 1717 637 AGGAUGAUCCUAGCUAUCG 2400 638 CAGCUCUCUCUUCAGAACA 2305 639 GGUGGGACACAGCAGCAAU 1928 640 CAGGAUGAUCCUAGCUAUC 2399 641 AGGAAGAGGAUGUGGAUAC 426 642 AUCUGUCUGCUCUAGUAAU 1309 643 UAACCUUUCCCAUCAUCGU 925 644 CUGCUUUAUUCUCCCAUUG 2072 645 AAUUGUAAUCUGAAUAAAG 2939 646 UCUUGUUCAGCUUCUGGGU 1480 647 GUUCGUGCACAUCAGGAUA 1889 648 AUGAUGCAGAACUUGCCAC 699 649 GCUGAUAUUGAUGGACAGU 506 650 GGUUAAGCUCUUACACCCA 1750 651 GCCCUUUGUCCCGCAAAUC 1820 652 UCAGAGGGUACGAGCUGCU 541 653 AAACAUGCAGUUGUAAACU 665 654 CUUGCCCUUUGUCCCGCAA 1817 655 UUACAAGAAACGGCUUUCA 2275 656 CACUCUGGUGGAUAUGGCC 2426 657 CAUCUUUAAGUCUGGAGGC 958 658 UGCCAUCUGUGCUCUUCGU 1657 659 UCUUGGCUAUUACGACAGA 1146 660 AUUUGGGAUAUGUAUGGGU 3078 661 CAGUGGAUUCUGUGUUGUU 1008 662 CCUUCGGGCUGGUGACAGG 1621 663 GGACACAGCAGCAAUUUGU 1932 664 CCAGCGCCGUACGUCCAUG 1909 665 AAGAAACGGCUUUCAGUUG 2279 666 AUUAGAUGAGGGCAUGCAG 574 667 ACCAGCUCUCUCUUCAGAA 2303 668 AGUUAUGGUCCAUCAGCUU 784 669 GACUAUCCAGUUGAUGGGC 2507 670 AUGCUUGGUUCACCAGUGG 995 671 CUAGCUCGGGAUGUUCACA 2006 672 CUCUUACACCCACCAUCCC 1757 673 CUUGCUCAGGACAAGGAAG 2129 674 AGAUUACAAGAAACGGCUU 2272 675 ACCACAGCUCCUUCUCUGA 389 676 AGAUGCUGCAACUAAACAG 1435 677 UUAAGCUCUUACACCCACC 1752 678 AAUAAGGCUGCAGUUAUGG 773 679 UUGGGAUAUGUAUGGGUAG 3080 680 GUAACCUGCUGUGAUACGA 3174 681 UGGUCUGCCAAGUGGGUGG 1578 682 CCUUCUCUGAGUGGUAAAG 398 683 GAAGCUAUUGAAGCUGAGG 2153 684 AUGCAGAACUUGCCACACG 702 685 GUAGCUGAUAUUGAUGGAC 503 686 CUCAAGCUGAUUUGAUGGA 276 687 GCAUGGAAGAAAUAGUUGA 1962 688 CUGGUGGAAUGCAAGCUUU 1347 689 CCCAGGACCUCAUGGAUGG 2544 690 UUUGGGAUAUGUAUGGGUA 3079 691 CAAAGUUGUUGUAACCUGC 3164 692 CCGAAUUGUUAUCAGAGGA 2026 693 UAAUUGUAAUCUGAAUAAA 2938 694 AUUGUAAUCUGAAUAAAGU 2940 695 CGAAUUGUUAUCAGAGGAC 2027 696 CCAAGUCCUGUAUGAGUGG 448 697 AAGCCGGCUAUUGUAGAAG 1328 698 AUCCUAGCUAUCGUUCUUU 2406 699 AUAACCUUUCCCAUCAUCG 924 700 GCCAAGUGGGUGGUAUAGA 1584 701 CGACUAGUUCAGUUGCUUG 1871 702 UUGGUUCACCAGUGGAUUC 999 703 GUUCAGAACUGUCUUUGGA 1400 704 UGCUGUGAUACGAUGCUUC 3180 705 UCCAGGUGACAGCAAUCAG 2569 706 UAUGGUCCAUCAGCUUUCU 787 707 UGCCAUUCCACGACUAGUU 1861 708 AACCAAGAAAGCAAGCUCA 1190 709 AUAAUUAUAAGAACAAGAU 1557 710 GUUAAGCUCUUACACCCAC 1751 711 UUGAGUAAUGGUGUAGAAC 2897 712 GUGUGGCGACAUAUGCAGC 2217 713 GACCAGCUCUCUCUUCAGA 2302 714 UUGUACCGGAGCCCUUCAC 1984 715 AUGGCCAUGGAACCAGACA 302 716 UGGUGGAUAUGGCCAGGAU 2431 717 CCUCUGACAGAGUUACUUC 2183 718 AUGAUCCUAGCUAUCGUUC 2403 719 AUGGUCCAUCAGCUUUCUA 788 720 GGACUCUUGUUCAGCUUCU 1476 721 GCUAUCAUGCGUUCUCCUC 827 722 GCUGACCAGCUCUCUCUUC 2299 723 UCGUGCACAUCAGGAUACC 1891 724 UACUUCACUCUAGGAAUGA 2196 725 UGAAACAUGCAGUUGUAAA 663 726 UAUGCCAUUACAACUCUCC 1028 727 UGUUAUCAGAGGACUAAAU 2032 728 GAUGGAAGGUCUCCUUGGG 1459 729 CAUCCAAAGAGUAGCUGCA 2095 730 GCCGACACCAAGAAGCAGA 1686 731 CUUUGGACUCUCAGGAAUC 1412 732 GGAACAUGAGAUGGGUGGC 2473 733 UGGCAGUGCGUUUAGCUGG 1080 734 GGAAGCUGCAGAAGCUAUU 2143 735 CUCUAGGAAUGAAGGUGUG 2203 736 GUACGAGCUGCUAUGUUCC 548 737 UCCACGACUAGUUCAGUUG 1867 738 CCUCAGAUGGUGUCUGCUA 842 739 CUCUGUGAACUUGCUCAGG 2120 740 GCAGUUAUGGUCCAUCAGC 782 741 UCUUACACCCACCAUCCCA 1758 742 CGCCAGGAUGAUCCUAGCU 2396 743 CACCUGACAGAUCCAAGUC 1373 744 UCACCUGUGCAGCUGGAAU 1518 745 GGAUGGGCUGCCUCCAGGU 2557 746 UACCGGAGCCCUUCACAUC 1987 747 UGAGACAUUAGAUGAGGGC 568 748 CACUCUAGGAAUGAAGGUG 2201 749 UUGAUGCUGCUCAUCCCAC 609 750 UUCUCUGAGUGGUAAAGGC 400 751 UGUUAGUCACUGGCAGCAA 331 752 GAAGAAAUAGUUGAAGGUU 1967 753 CUUCACUCUAGGAAUGAAG 2198 754 CUGGGUUCAGAUGAUAUAA 1493 755 GGACAAGCCACAAGAUUAC 2260 756 ACCCUGGUGCUGACUAUCC 2496 757 UUGAUAUUGGUGCCCAGGG 2361 758 ACCUCCCAAGUCCUGUAUG 443 759 GUAUGCAAUGACUCGAGCU 523 760 CCAGUUGUGGUUAAGCUCU 1742 761 AUGACUCGAGCUCAGAGGG 530 762 UUGUUGUAACCUGCUGUGA 3169 763 CCAAGUCAACGUCUUGUUC 1385 764 AUCAGAGGACUAAAUACCA 2036 765 UGUAUGGGUAGGGUAAAUC 3088 766 CGUGAGCAGGGUGCCAUUC 1850 767 UGAUGGGCUGCCAGAUCUG 2518 768 CUUGUUCGUGCACAUCAGG 1886 769 CCAUCACAGAUGCUGAAAC 650 770 ACAGUUUACCAGUUGCCUU 3139 771 ACCGAAUUGUUAUCAGAGG 2025 772 GCAGUGCGUUUAGCUGGUG 1082 773 AACAUGAGAUGGGUGGCCA 2475 774 CCUGACAGAUCCAAGUCAA 1375 775 GGGAUGUUCACAACCGAAU 2013 776 GGAUUGAUUCGAAAUCUUG 1802 777 GAAGCUGCAGAAGCUAUUG 2144 778 AAUGACUCGAGCUCAGAGG 529 779 UUGUUCAGCUUCUGGGUUC 1482 780 CCUCACUUGCAAUAAUUAU 1546 781 CAGAUGGUGUCUGCUAUUG 845 782 CUUCACUCAAGAACAAGUA 487 783 AUCACAGAUGCUGAAACAU 652 784 AGUUCGCCUUCACUAUGGA 1720 785 UACUGGCCAUCUUUAAGUC 951 786 CAAGCUUUAGUAAAUAUAA 1232 787 AGCCACAAGAUUACAAGAA 2265 788 AAGCAGAGAUGGCCCAGAA 1698 789 GAUGCAGAACUUGCCACAC 701 790 AUCUUUCAGAUGCUGCAAC 1428 791 UGGGACACAGCAGCAAUUU 1930 792 ACAGAUCCAAGUCAACGUC 1379 793 ACAGCAGCAAUUUGUGGAG 1936 794 UGCAACUAAACAGGAAGGG 1441 795 GCUCAGGACAAGGAAGCUG 2132 796 GACUAAAUACCAUUCCAUU 2043 797 UUUGAUGCUGCUCAUCCCA 608 798 UGGCAGCAACAGUCUUACC 341 799 AAGAAAGCAAGCUCAUCAU 1194 800 UGAUCUUGGACUUGAUAUU 2350 801 CUGAAUAAAGUGUAACAAU 2948 802 ACUAAAUACCAUUCCAUUG 2044 803 AUCCCACUAAUGUCCAGCG 621 804 CCACUACCACAGCUCCUUC 384 805 CAUCAGGAUACCCAGCGCC 1898 806 UCACAGAUGCUGAAACAUG 653 807 UUUGCGUGAGCAGGGUGCC 1846 808 GCUGAUCUUGGACUUGAUA 2348 809 GGCUAUUACGACAGACUGC 1150 810 GGACAUGGCCAUGGAACCA 298 811 AACAAGAUGAUGGUCUGCC 1568 812 UUACAUCAAGAAGGAGCUA 1058 813 AAUCAUGCACCUUUGCGUG 1835 814 GCAAAUCAUGCACCUUUGC 1832 815 GAGUGGUAAAGGCAAUCCU 406 816 UCGCCUUCACUAUGGACUA 1723 817 AUCCAUUCUGGUGCCACUA 371 818 AUCAGGAUACCCAGCGCCG 1899 819 AGUAUGCAAUGACUCGAGC 522 820 CGGCUUUCAGUUGAGCUGA 2285 821 GCUGCAGUUAUGGUCCAUC 779 822 AUUGAGUAAUGGUGUAGAA 2896 823 GUAAUCUGAAUAAAGUGUA 2943 824 UUGAUGGACAGUAUGCAAU 513 825 GAUAUGUAUGGGUAGGGUA 3084 826 GAACAAGAUGAUGGUCUGC 1567 827 UUAUCAGAGGACUAAAUAC 2034 828 UUCACCAGUGGAUUCUGUG 1003 829 AAGGUUGUACCGGAGCCCU 1980 830 GUAGAAGCUGGUGGAAUGC 1340 831 AUGCUGCAACUAAACAGGA 1437 832 UCACUCUGGUGGAUAUGGC 2425 833 CUGAUUUGAUGGAGUUGGA 282 834 UCAUCAUACUGGCUAGUGG 1206 835 GCUUGUUCGUGCACAUCAG 1885 836 UCUGCUCUAGUAAUAAGCC 1314 837 UAUCUGUCUGCUCUAGUAA 1308 838 GCAAGCUCAUCAUACUGGC 1200 839 AGAGGGUACGAGCUGCUAU 543 840 UGUGCGUACUGUCCUUCGG 1609 841 GGAAGGGAUGGAAGGUCUC 1453 842 AUGCGUUCUCCUCAGAUGG 833 843 GACAGAGUUACUUCACUCU 2188 844 UUGGCUAUUACGACAGACU 1148 845 GGACUACCAGUUGUGGUUA 1736 846 UUCAGAACUGUCUUUGGAC 1401 847 AUCUGACCAGCCGACACCA 1677 848 ACACAGCAGCAAUUUGUGG 1934 849 UACCACAGCUCCUUCUCUG 388 850 CGUCCAUGGGUGGGACACA 1920 851 UGUGGUUAAGCUCUUACAC 1747 852 UUGUACGUACCAUGCAGAA 861 853 GAUACCCAGCGCCGUACGU 1904 854 UCAUGCGUUCUCCUCAGAU 831 855 GCACAUCAGGAUACCCAGC 1895 856 GAUUACAAGAAACGGCUUU 2273 857 ACUACCAGUUGUGGUUAAG 1738 858 GUCUUGUUCAGAACUGUCU 1395 859 UCAUCUGACCAGCCGACAC 1675 860 CUUUGCGUGAGCAGGGUGC 1845 861 CUGUCUUUGGACUCUCAGG 1408 862 UACAUCAAGAAGGAGCUAA 1059 863 AGAUCCAAGUCAACGUCUU 1381 864 CAAGUCAACGUCUUGUUCA 1386 865 UCCUUGGGACUCUUGUUCA 1470 866 GGUGGAAUGCAAGCUUUAG 1349 867 CUGCAACUAAACAGGAAGG 1440 868 UUAGGACUUCACCUGACAG 1364 869 AGUAGCUGAUAUUGAUGGA 502 870 UAUAAUGAGGACCUAUACU 1246 871 CCUGCUGUGAUACGAUGCU 3178 872 AUGGGUGGCCACCACCCUG 2483 873 GACUCUCAGGAAUCUUUCA 1417 874 GUGCACAUCAGGAUACCCA 1893 875 UUCCAGACACGCUAUCAUG 817 876 UUGCCACACGUGCAAUCCC 711 877 UCAGAUGCUGCAACUAAAC 1433 878 CUUUAGGACUUCACCUGAC 1362 879 CAUGCACCUUUGCGUGAGC 1838 880 ACAACUCUCCACAACCUUU 1037 881 UGGGACUCUUGUUCAGCUU 1474 882 GCUUGGUUCACCAGUGGAU 997 883 UUCCCAUCAUCGUGAGGGC 931 884 GUCUGCUCUAGUAAUAAGC 1313 885 CAGCUUCUGGGUUCAGAUG 1487 886 CGUCAUCUGACCAGCCGAC 1673 887 UGUUCCCUGAGACAUUAGA 561 888 GCAACCAAGAAAGCAAGCU 1188 889 GGAGUUGGACAUGGCCAUG 292 890 GUCCGCAUGGAAGAAAUAG 1958 891 CUGAUCUUGGACUUGAUAU 2349 892 AUGGAAGGUCUCCUUGGGA 1460 893 GAUGGUCUGCCAAGUGGGU 1576 894 ACUAUCAAGAUGAUGCAGA 690 895 ACAGAUGCUGAAACAUGCA 655 896 UUCAGUUGAGCUGACCAGC 2290 897 AGAGGCUCUUGUGCGUACU 1600 898 GGUGGAUAUGGCCAGGAUG 2432 899 CUUGCCACACGUGCAAUCC 710 900 GAAUGCAGUUCGCCUUCAC 1714 901 CCUAGCUCGGGAUGUUCAC 2005 902 UUCACUAUGGACUACCAGU 1728 903 GAUGGGUGGCCACCACCCU 2482 904 UGGUUAAUAAGGCUGCAGU 768 905 AUCAAGAUGAUGCAGAACU 693 906 CUGCUGUGAUACGAUGCUU 3179 907 AUGCCUUGGGUAUGGACCC 2448 908 UGUGAUACGAUGCUUCAAG 3183 909 GAGUGCUGAAGGUGCUAUC 1293 910 GAGGGUACGAGCUGCUAUG 544 911 UUAAUUGUAAUCUGAAUAA 2937 912 CACCAAGAAGCAGAGAUGG 1691 913 GAAUGCAAGCUUUAGGACU 1353 914 ACCUUUGCGUGAGCAGGGU 1843 915 AGGUGCUAUCUGUCUGCUC 1302 916 UUGCUCAGGACAAGGAAGC 2130 917 GCUGAGGGAGCCACAGCUC 2165 918 CUACCACAGCUCCUUCUCU 387 919 UGGAACAUGAGAUGGGUGG 2472 920 GCUAUUGUACGUACCAUGC 857 921 UCUUGCCCUUUGUCCCGCA 1816 922 UUAUAAGAACAAGAUGAUG 1561 923 GGAAGCUUCCAGACACGCU 811 924 UAAGCCGGCUAUUGUAGAA 1327 925 GGACCAGGUGGUGGUUAAU 757 926 CUGAUAUUGAUGGACAGUA 507 927 UGGGUAGGGUAAAUCAGUA 3092 928 ACUUGAUAUUGGUGCCCAG 2359 929 UAAGCUCUUACACCCACCA 1753 930 CUACUCAAGCUGAUUUGAU 273 931 GGUGCCAUUCCACGACUAG 1859 932 UUGGACAUGGCCAUGGAAC 296 933 CUGCUCAUCCCACUAAUGU 615 934 CAUGGCCAUGGAACCAGAC 301 935 UAUGGCAACCAAGAAAGCA 1184 936 ACCAGUGGAUUCUGUGUUG 1006 937 ACAGAGUUACUUCACUCUA 2189 938 UAGGACUUCACCUGACAGA 1365 939 GCCAGGAUGCCUUGGGUAU 2442 940 AAUGAGGACCUAUACUUAC 1249 941 AUUCUUGGCUAUUACGACA 1144 942 CUUUAUUCUCCCAUUGAAA 2075 943 UAGCUGAUAUUGAUGGACA 504 944 GAACUGUCUUUGGACUCUC 1405 945 UUAGUCACUGGCAGCAACA 333 946 CCAUUACAACUCUCCACAA 1032 947 GUGGUUAAGCUCUUACACC 1748 948 UGAUUUGAUGGAGUUGGAC 283 949 GCAGAGAUGGCCCAGAAUG 1700 950 ACUAAACAGGAAGGGAUGG 1445 951 ACAAAUGUUAAAUUCUUGG 1133 952 GCAAUGACUCGAGCUCAGA 527 953 CUCGGGAUGUUCACAACCG 2010 954 GUGUCUGCUAUUGUACGUA 851 955 UGUGGAUACCUCCCAAGUC 436 956 GGAUGCCUUGGGUAUGGAC 2446 957 AAAUUCUUGGCUAUUACGA 1142 958 UACGAGCUGCUAUGUUCCC 549 959 CAGUGCGUUUAGCUGGUGG 1083 960 CAAGAUGAUGCAGAACUUG 695 961 AUGAUGUAGAAACAGCUCG 885 962 UGCAGCUGCUUUAUUCUCC 2067 963 CCACAGCUCCUUCUCUGAG 390 964 CAGUUCGCCUUCACUAUGG 1719 965 AAGCUUCCAGACACGCUAU 813 966 UUUCAGUUGAGCUGACCAG 2289 967 UCUGGUGCCACUACCACAG 377 968 CGCUAUCAUGCGUUCUCCU 826 969 GACAGGGAAGACAUCACUG 1634 970 AUCAUACUGGCUAGUGGUG 1208 971 GCUGGUGACAGGGAAGACA 1628 972 AUCCUAGCUCGGGAUGUUC 2003 973 GUCCUGUAUGAGUGGGAAC 452 974 UGGGAUAUGUAUGGGUAGG 3081 975 CUUGGACUUGAUAUUGGUG 2354 976 CCUUUGUCCCGCAAAUCAU 1822 977 UGAAGGUGCUAUCUGUCUG 1299 978 CCUUCACUCAAGAACAAGU 486 979 GAAGGUCUCCUUGGGACUC 1463 980 AGAAACGGCUUUCAGUUGA 2280 981 ACCCAGCGCCGUACGUCCA 1907 982 CAUAACCUUUCCCAUCAUC 923 983 GAAGGUUGUACCGGAGCCC 1979 984 GUCCCGCAAAUCAUGCACC 1827 985 CAAGCUCAUCAUACUGGCU 1201 986 CGCCGUACGUCCAUGGGUG 1913 987 AGAGUUACUUCACUCUAGG 2191 988 GUUGGACAUGGCCAUGGAA 295 989 UGGCUAUUACGACAGACUG 1149 990 ACUCGAGCUCAGAGGGUAC 533 991 ACAGUUUGAUGCUGCUCAU 604 992 GGUGGUUAAUAAGGCUGCA 766 993 CUUUGUCCCGCAAAUCAUG 1823 994 AAUACCAUUCCAUUGUUUG 2048 995 CCACACGUGCAAUCCCUGA 714 996 AUGGCCAGGAUGCCUUGGG 2439 997 GGAUACCCAGCGCCGUACG 1903 998 UCGCCAGGAUGAUCCUAGC 2395 999 UGGUCCAUCAGCUUUCUAA 789 1000 AUAUGUAUGGGUAGGGUAA 3085 1001 CCCAGAAUGCAGUUCGCCU 1710 1002 UAUUGUAGAAGCUGGUGGA 1336 1003 GUAUGGGUAGGGUAAAUCA 3089 1004 GAUCUUGGACUUGAUAUUG 2351 1005 ACACGUGCAAUCCCUGAAC 716 1006 AGCGCCGUACGUCCAUGGG 1911 1007 UGUACCGGAGCCCUUCACA 1985 1008 GUUGAUGGGCUGCCAGAUC 2516 1009 ACACCCACCAUCCCACUGG 1762 1010 UACGACAGACUGCCUUCAA 1156 1011 UUGUUCGUGCACAUCAGGA 1887 1012 CAAAUCAUGCACCUUUGCG 1833 1013 GUCUGGAGGCAUUCCUGCC 967 1014 CACUAUGGACUACCAGUUG 1730 1015 UAUCAUGCGUUCUCCUCAG 829 1016 GUAGAAACAGCUCGUUGUA 890 1017 CUCCUCUGACAGAGUUACU 2181 1018 UGCUCAGGACAAGGAAGCU 2131 1019 CAAGUGGGUGGUAUAGAGG 1586 1020 UGGUGGUUAAUAAGGCUGC 765 1021 ACUUCACCUGACAGAUCCA 1369 1022 CGCCUUCACUAUGGACUAC 1724 1023 UGCGUUCUCCUCAGAUGGU 834 1024 GUUGUACCGGAGCCCUUCA 1983 1025 CGACACCAAGAAGCAGAGA 1688 1026 UCACCAGUGGAUUCUGUGU 1004 1027 GGUGACAGGGAAGACAUCA 1631 1028 UCUAGUAAUAAGCCGGCUA 1319 1029 GUGGUUAAUAAGGCUGCAG 767 1030 UCCUCAGAUGGUGUCUGCU 841 1031 AUGGACAGUAUGCAAUGAC 516 1032 UGCGUGAGCAGGGUGCCAU 1848 1033 ACUCUAGGAAUGAAGGUGU 2202 1034 GACAUUAGAUGAGGGCAUG 571 1035 CUGGUGACAGGGAAGACAU 1629 1036 UGAUUCGAAAUCUUGCCCU 1806 1037 GCUCUUACACCCACCAUCC 1756 1038 GUCCUUCGGGCUGGUGACA 1619 1039 GUGCGUACUGUCCUUCGGG 1610 1040 UGGUGCUGACUAUCCAGUU 2500 1041 GCUAUUGAAGCUGAGGGAG 2156 1042 CAACCAAGAAAGCAAGCUC 1189 1043 GUGCAGCUGCUUUAUUCUC 2066 1044 CUAUCUGUCUGCUCUAGUA 1307 1045 AAACAGGAAGGGAUGGAAG 1448 1046 ACUGGCUAGUGGUGGACCC 1213 1047 CCUCUGUGAACUUGCUCAG 2119 1048 UGUAGAAACAGCUCGUUGU 889 1049 CUGACAGAUCCAAGUCAAC 1376 1050 GGAAGAGGAUGUGGAUACC 427 1051 ACCAUCACAGAUGCUGAAA 649 1052 CCGUACGUCCAUGGGUGGG 1915 1053 CAUUCCAUUGUUUGUGCAG 2053 1054 CUCCAGGUGACAGCAAUCA 2568 1055 CUACCAGUUGUGGUUAAGC 1739 1056 UUGUGGUUAAGCUCUUACA 1746 1057 UAGUAAUAAGCCGGCUAUU 1321 1058 CAGUCCUUCACUCAAGAAC 482 1059 AGCUGAUUUGAUGGAGUUG 280 1060 AGGUCUCCUUGGGACUCUU 1465 1061 ACUAUGGACUACCAGUUGU 1731 1062 CAGCAGCAAUUUGUGGAGG 1937 1063 CGUGCACAUCAGGAUACCC 1892 1064 CGUUCUCCUCAGAUGGUGU 836 1065 CAGUAUGCAAUGACUCGAG 521 1066 GGUAUAGAGGCUCUUGUGC 1595 1067 AUCCAGUUGAUGGGCUGCC 2511 1068 UGCCAAGUGGGUGGUAUAG 1583 1069 ACAUCAGGAUACCCAGCGC 1897 1070 GCCAUCUUUAAGUCUGGAG 956 1071 AACCUUUCCCAUCAUCGUG 926 1072 CUAGUUCAGUUGCUUGUUC 1874 1073 UUCACUCAAGAACAAGUAG 488 1074 AAGAAGCAGAGAUGGCCCA 1695 1075 UCCUCUGACAGAGUUACUU 2182 1076 AAUUGUUAUCAGAGGACUA 2029 1077 UCUCAGUCCUUCACUCAAG 479 1078 UCCAGACACGCUAUCAUGC 818 1079 CACUAAUGUCCAGCGUUUG 625 1080 UUGUAACCUGCUGUGAUAC 3172 1081 CUUCUGGGUUCAGAUGAUA 1490 1082 GCCGUACGUCCAUGGGUGG 1914 1083 UAGUUGAAGGUUGUACCGG 1974 1084 GAGGACAAGCCACAAGAUU 2258 1085 GGGAGCCACAGCUCCUCUG 2170 1086 CUUCACCUGACAGAUCCAA 1370 1087 UCUUUCAGAUGCUGCAACU 1429 1088 UGUAACCUGCUGUGAUACG 3173 1089 CCUCCCAAGUCCUGUAUGA 444 1090 GGCAGUGCGUUUAGCUGGU 1081 1091 CUCUAGUAAUAAGCCGGCU 1318 1092 GCUGUUAGUCACUGGCAGC 329 1093 GUCAACGUCUUGUUCAGAA 1389 1094 GAAGAGGAUGUGGAUACCU 428 1095 UAACCUGCUGUGAUACGAU 3175 1096 GUUAUUUGGAACCUUGUUU 3117 1097 UCACAACCGAAUUGUUAUC 2020 1098 CGGGCUGGUGACAGGGAAG 1625 1099 ACAACCGAAUUGUUAUCAG 2022 1100 CCACUAAUGUCCAGCGUUU 624 1101 CACUGAGCCUGCCAUCUGU 1648 1102 GGUCCAUCAGCUUUCUAAA 790 1103 AUCCCAAAGUUGUUGUAAC 3160 1104 UGAGGACCUAUACUUACGA 1251 1105 UGUCUGAGGACAAGCCACA 2253 1106 AGUUGAUGGGCUGCCAGAU 2515 1107 UGACCAGCCGACACCAAGA 1680 1108 AGGGAGCCACAGCUCCUCU 2169 1109 AAAGUUGUUGUAACCUGCU 3165 1110 CUGCAGUUAUGGUCCAUCA 780 1111 UGAAGGUUGUACCGGAGCC 1978 1112 UUCCCUGAGACAUUAGAUG 563 1113 CUUCGGGCUGGUGACAGGG 1622 1114 UUGAGCUGACCAGCUCUCU 2295 1115 GAACUUGCUCAGGACAAGG 2126 1116 CCAGCCGACACCAAGAAGC 1683 1117 AGGGUGCCAUUCCACGACU 1857 1118 UUGUGCAGCUGCUUUAUUC 2064 1119 UCACUCAAGAACAAGUAGC 489 1120 GCUGGUGGAAUGCAAGCUU 1346 1121 GCAACUAAACAGGAAGGGA 1442 1122 AGGUUGUACCGGAGCCCUU 1981 1123 AGGCUGCAGUUAUGGUCCA 777 1124 GCAGAUCCCAUCUACACAG 589 1125 CUAGGAAUGAAGGUGUGGC 2205 1126 AGCUCCUUCUCUGAGUGGU 394 1127 UUACAACUCUCCACAACCU 1035 1128 GGUAAAGGCAAUCCUGAGG 410 1129 GUUCGCCUUCACUAUGGAC 1721 1130 CAAAUGUUAAAUUCUUGGC 1134 1131 CUGUGAUACGAUGCUUCAA 3182 1132 ACAAAUGAUGUAGAAACAG 881 1133 GGUACGAGCUGCUAUGUUC 547 1134 GAAUUGUUAUCAGAGGACU 2028 1135 CAACCGAAUUGUUAUCAGA 2023 1136 GUGAUACGAUGCUUCAAGA 3184 1137 AAAGGCAAUCCUGAGGAAG 413 1138 CAGCUCCUCUGACAGAGUU 2178 1139 AUGGUCUGCCAAGUGGGUG 1577 1140 GCUACUGUUGGAUUGAUUC 1793 1141 UGCAAUGACUCGAGCUCAG 526 1142 GACUUGAUAUUGGUGCCCA 2358 1143 CAGAACUGUCUUUGGACUC 1403 1144 UAGUUCAGUUGCUUGUUCG 1875 1145 ACAGACUGCCUUCAAAUUU 1160 1146 GGGUGGUAUAGAGGCUCUU 1591 1147 AUGGACUACCAGUUGUGGU 1734 1148 AUUGUUAUCAGAGGACUAA 2030 1149 UAAGGCUGCAGUUAUGGUC 775 1150 AAAUCUUGCCCUUUGUCCC 1813 1151 AGCAGCAAUUUGUGGAGGG 1938 1152 AGAGGACUAAAUACCAUUC 2039 1153 GCUGAAGGUGCUAUCUGUC 1297 1154 UGUAUGAGUGGGAACAGGG 456 1155 CAGAUCCCAUCUACACAGU 590 1156 GACACAGCAGCAAUUUGUG 1933 1157 GGGCAUGCAGAUCCCAUCU 583 1158 CAUGCCCAGGACCUCAUGG 2540 1159 GAAGCUGAGGGAGCCACAG 2162 1160 CUGUUAGUCACUGGCAGCA 330 1161 CUUGUUCAGCUUCUGGGUU 1481 1162 AAGCUGGUGGAAUGCAAGC 1344 1163 GAGGAUGUGGAUACCUCCC 431 1164 AUAAAUGUGGUCACCUGUG 1508 1165 UACGUCCAUGGGUGGGACA 1918 1166 GAUGGAGUUGGACAUGGCC 289 1167 UGUCCAGCGUUUGGCUGAA 631 1168 GAGCAGGGUGCCAUUCCAC 1853 1169 AAAUAUAAUGAGGACCUAU 1243 1170 UACUGGCUAGUGGUGGACC 1212 1171 UGCUUGGUUCACCAGUGGA 996 1172 CUGAGGACAAGCCACAAGA 2256 1173 CUUGUGCGUACUGUCCUUC 1607 1174 UGUUAUUUGGAACCUUGUU 3116 1175 UAGCUUAUGGCAACCAAGA 1179 1176 UGAUACGAUGCUUCAAGAG 3185 1177 UGGUAUAGAGGCUCUUGUG 1594 1178 GAUGUAGAAACAGCUCGUU 887 1179 CCUUUCCCAUCAUCGUGAG 928 1180 GCGUUCUCCUCAGAUGGUG 835 1181 UCAGGAUACCCAGCGCCGU 1900 1182 ACGGCUUUCAGUUGAGCUG 2284 1183 GUUGAAGGUUGUACCGGAG 1976 1184 UAUCGCCAGGAUGAUCCUA 2393 1185 GUGCUGAAGGUGCUAUCUG 1295 1186 GUCUUUGGACUCUCAGGAA 1410 1187 GGGAUGGAAGGUCUCCUUG 1457 1188 UGAGCUGACCAGCUCUCUC 2296 1189 CUUUCCCAUCAUCGUGAGG 929 1190 AAGCUUUAGGACUUCACCU 1359 1191 UGGAAUGCAAGCUUUAGGA 1351 1192 CUGGAGGCAUUCCUGCCCU 969 1193 AGUUCAGUUGCUUGUUCGU 1876 1194 GAGCUGCUAUGUUCCCUGA 552 1195 GGCCAGGAUGCCUUGGGUA 2441 1196 GAUGAUCCUAGCUAUCGUU 2402 1197 GAUUGAUUCGAAAUCUUGC 1803 1198 CAGAGAUGGCCCAGAAUGC 1701 1199 CAGCGCCGUACGUCCAUGG 1910 1200 AUGUAGAAACAGCUCGUUG 888 1201 AGUGCUGAAGGUGCUAUCU 1294 1202 GACUACCAGUUGUGGUUAA 1737 1203 ACAGGAAGGGAUGGAAGGU 1450 1204 CAGGUGGUGGUUAAUAAGG 761 1205 AAGGCUGCAGUUAUGGUCC 776 1206 UAAAUGUGGUCACCUGUGC 1509 1207 UAAAGGCUACUGUUGGAUU 1788 1208 GAUGGACAGUAUGCAAUGA 515 1209 UUCUGGGUUCAGAUGAUAU 1491 1210 GUACUGUCCUUCGGGCUGG 1614 1211 CUUGGUUCACCAGUGGAUU 998 1212 UAUUGAAGCUGAGGGAGCC 2158 1213 GUUGUUGUAACCUGCUGUG 3168 1214 AGCAGGGUGCCAUUCCACG 1854 1215 GUCCUCUGUGAACUUGCUC 2117 1216 UCUGACCAGCCGACACCAA 1678 1217 GCCAUGGAACCAGACAGAA 305 1218 AAGCUAUUGAAGCUGAGGG 2154 1219 GAUUCGAAAUCUUGCCCUU 1807 1220 AGUUGCUUGUUCGUGCACA 1881 1221 AAGAACAAGAUGAUGGUCU 1565 1222 AGUGGUAAAGGCAAUCCUG 407 1223 CAGAUGCUGCAACUAAACA 1434 1224 CCUGAGACAUUAGAUGAGG 566 1225 UCCCAAAGUUGUUGUAACC 3161 1226 CUGACCAGCCGACACCAAG 1679 1227 AUCCAAAGAGUAGCUGCAG 2096 1228 AUGUCCAGCGUUUGGCUGA 630 1229 UCUUGUGCGUACUGUCCUU 1606 1230 AGGAUGUGGAUACCUCCCA 432 1231 GGCUGCAGUUAUGGUCCAU 778 1232 UCACAUCCUAGCUCGGGAU 1999 1233 ACCAAGAAGCAGAGAUGGC 1692 1234 GCCACCACCCUGGUGCUGA 2490 1235 CCCACUAAUGUCCAGCGUU 623 1236 ACUGGCAGCAACAGUCUUA 339 1237 AUCUGAAUAAAGUGUAACA 2946 1238 GCCUGCCAUCUGUGCUCUU 1654 1239 CAUUACAACUCUCCACAAC 1033 1240 CUCCUCAGAUGGUGUCUGC 840 1241 CAGUUGCUUGUUCGUGCAC 1880 1242 AUCCUGAGGAAGAGGAUGU 420 1243 CACCAGUGGAUUCUGUGUU 1005 1244 CAAGAAAGCAAGCUCAUCA 1193 1245 CUUGCAUAACCUUUCCCAU 919 1246 CUUCACUAUGGACUACCAG 1727 1247 UUGCUUGUUCGUGCACAUC 1883 1248 UAUUGUACGUACCAUGCAG 859 1249 GAAAUCUUGCCCUUUGUCC 1812 1250 CUCUUGUGCGUACUGUCCU 1605 1251 CACAACCGAAUUGUUAUCA 2021 1252 GCUCCUCUGACAGAGUUAC 2180 1253 AGCGUUUGGCUGAACCAUC 636 1254 AAACGGCUUUCAGUUGAGC 2282 1255 UUUGUCCCGCAAAUCAUGC 1824 1256 UCUAGGAAUGAAGGUGUGG 2204 1257 AAGUCCUGUAUGAGUGGGA 450 1258 GGUUCACCAGUGGAUUCUG 1001 1259 GGUCUGCCAAGUGGGUGGU 1579 1260 AGCUCCUCUGACAGAGUUA 2179 1261 UUCUGGUGCCACUACCACA 376 1262 UGCUAUGUUCCCUGAGACA 556 1263 AUUGAUUCGAAAUCUUGCC 1804 1264 CUCAUGGAUGGGCUGCCUC 2552 1265 GCUGCUUUAUUCUCCCAUU 2071 1266 AUCAUGCACCUUUGCGUGA 1836 1267 GUCACUGGCAGCAACAGUC 336 1268 UGAGUGGGAACAGGGAUUU 460 1269 AAUUAUAAGAACAAGAUGA 1559 1270 UGGACAGUUUACCAGUUGC 3136 1271 AUGAGGACCUAUACUUACG 1250 1272 GGAAGGUCUCCUUGGGACU 1462 1273 UGGAAGAAAUAGUUGAAGG 1965 1274 GGUGUUAUUUGGAACCUUG 3114 1275 GUGCUCUUCGUCAUCUGAC 1665 1276 GGCCAUGGAACCAGACAGA 304 1277 CGGCUGUUAGUCACUGGCA 327 1278 UUCCACGACUAGUUCAGUU 1866 1279 AGCAGAGAUGGCCCAGAAU 1699 1280 GCCAGGAUGAUCCUAGCUA 2397 1281 GCCAUCUGUGCUCUUCGUC 1658 1282 UAGAAACAGCUCGUUGUAC 891 1283 AGAUGAUGGUCUGCCAAGU 1572 1284 ACCUUUCCCAUCAUCGUGA 927 1285 AUGGAGUUGGACAUGGCCA 290 1286 CUGUGCUCUUCGUCAUCUG 1663 1287 UAUAAGAACAAGAUGAUGG 1562 1288 UCUGAAUAAAGUGUAACAA 2947 1289 CCAGAAUGCAGUUCGCCUU 1711 1290 AGAACAAGAUGAUGGUCUG 1566 1291 AUCUUGCCCUUUGUCCCGC 1815 1292 GCGUUUAGCUGGUGGGCUG 1087 1293 GGGUUCAGAUGAUAUAAAU 1495 1294 UUUAGGACUUCACCUGACA 1363 1295 CACAGCUCCUUCUCUGAGU 391 1296 AACGUCUUGUUCAGAACUG 1392 1297 CACAGCAGCAAUUUGUGGA 1935 1298 GACUAGUUCAGUUGCUUGU 1872 1299 GACAGACUGCCUUCAAAUU 1159 1300 CUCUCUCUUCAGAACAGAG 2308 1301 GUCCAGCGUUUGGCUGAAC 632 1302 UAAGAACAAGAUGAUGGUC 1564 1303 UCCAAGUCAACGUCUUGUU 1384 1304 ACACCAAGAAGCAGAGAUG 1690 1305 CUCAGGAAUCUUUCAGAUG 1421 1306 UAAAUUCUUGGCUAUUACG 1141 1307 CUAUGGACUACCAGUUGUG 1732 1308 CCAGCGUUUGGCUGAACCA 634 1309 UCCCAUCAUCGUGAGGGCU 932 1310 AGGACUUCACCUGACAGAU 1366 1311 UUGUGCGUACUGUCCUUCG 1608 1312 CCAUGGGUGGGACACAGCA 1923 1313 GGAUGGAAGGUCUCCUUGG 1458 1314 CCCAGCGCCGUACGUCCAU 1908 1315 GCUCAGAGGGUACGAGCUG 539 1316 AUGUUCACAACCGAAUUGU 2016 1317 UGCUUGUUCGUGCACAUCA 1884 1318 AUGUUCCCUGAGACAUUAG 560 1319 GUAAAGGCAAUCCUGAGGA 411 1320 CACUGGCAGCAACAGUCUU 338 1321 AUCAUGCGUUCUCCUCAGA 830 1322 UAUGUAUGGGUAGGGUAAA 3086 1323 GUGUUAUUUGGAACCUUGU 3115 1324 ACAGCUCCUCUGACAGAGU 2177 1325 UAUGGACUACCAGUUGUGG 1733 1326 AUUCUGGUGCCACUACCAC 375 1327 UGCCUCCAGGUGACAGCAA 2565 1328 UACCUCCCAAGUCCUGUAU 442 1329 CCAGACACGCUAUCAUGCG 819 1330 UGAUGCAGAACUUGCCACA 700 1331 GUUUAGCUGGUGGGCUGCA 1089 1332 GUCUGCCAAGUGGGUGGUA 1580 1333 GGUUGUACCGGAGCCCUUC 1982 1334 GUACCGGAGCCCUUCACAU 1986 1335 CAAUCCUGAGGAAGAGGAU 418 1336 GCUAUCUGUCUGCUCUAGU 1306 1337 UGACAGAUCCAAGUCAACG 1377 1338 CAUGAUGGAACAUGAGAUG 2467 1339 UUGGACUCUCAGGAAUCUU 1414 1340 CUCUUCGUCAUCUGACCAG 1668 1341 UUGCCCUUUGUCCCGCAAA 1818 1342 GAAGCAGAGAUGGCCCAGA 1697 1343 CCUUGCAUAACCUUUCCCA 918 1344 CAGUUUGAUGCUGCUCAUC 605 1345 ACCUGACAGAUCCAAGUCA 1374 1346 CUUUCAGAUGCUGCAACUA 1430 1347 GAUACGAUGCUUCAAGAGA 3186 1348 AUGCAAGCUUUAGGACUUC 1355 1349 GGAUGUGGAUACCUCCCAA 433 1350 AGAAUGCAGUUCGCCUUCA 1713 1351 CGAAAUCUUGCCCUUUGUC 1811 1352 ACUCAAGAACAAGUAGCUG 491 1353 GAAUGAAGGUGUGGCGACA 2209 1354 UGCACCUUUGCGUGAGCAG 1840 1355 ACGAGCUGCUAUGUUCCCU 550 1356 AAGAGGAUGUGGAUACCUC 429 1357 GAUAUGGCCAGGAUGCCUU 2436 1358 UAUAGAGGCUCUUGUGCGU 1597 1359 GGUUCAGAUGAUAUAAAUG 1496 1360 AGGGAUGGAAGGUCUCCUU 1456 1361 UAUCCCAAAGUUGUUGUAA 3159 1362 UCUCUCUUCAGAACAGAGC 2309 1363 CUGACCAGCUCUCUCUUCA 2300 1364 ACCUGCUGUGAUACGAUGC 3177 1365 AUGGCAGUGCGUUUAGCUG 1079 1366 AUCCAAGUCAACGUCUUGU 1383 1367 GCUGCCUCCAGGUGACAGC 2563 1368 AGUGCGUUUAGCUGGUGGG 1084 1369 AGCCGGCUAUUGUAGAAGC 1329 1370 CAUUAGAUGAGGGCAUGCA 573 1371 GAAGGUGUGGCGACAUAUG 2213 1372 AAGUGGGUGGUAUAGAGGC 1587 1373 CUGAGGGAGCCACAGCUCC 2166 1374 GCGUUUGGCUGAACCAUCA 637 1375 UCCUUCUCUGAGUGGUAAA 397 1376 GCAGUUCGCCUUCACUAUG 1718 1377 GGACUUGAUAUUGGUGCCC 2357 1378 GUUUGGCUGAACCAUCACA 639 1379 GCAUGCAGAUCCCAUCUAC 585 1380 GAUGGGCUGCCAGAUCUGG 2519 1381 GGACUUCACCUGACAGAUC 1367 1382 CAACGUCUUGUUCAGAACU 1391 1383 GAUAUUGAUGGACAGUAUG 509 1384 UGGCCAUGGAACCAGACAG 303 1385 CAAGAACAAGUAGCUGAUA 494 1386 GGCUGUUAGUCACUGGCAG 328 1387 CAUUGUUUGUGCAGCUGCU 2058 1388 UAAACAGGAAGGGAUGGAA 1447 1389 AUAAGAACAAGAUGAUGGU 1563 1390 GUGGAAUGCAAGCUUUAGG 1350 1391 GGAAUGAAGGUGUGGCGAC 2208 1392 GACACCAAGAAGCAGAGAU 1689 1393 ACUGUCUUUGGACUCUCAG 1407 1394 GGACAAGGAAGCUGCAGAA 2137 1395 UCUGCUAUUGUACGUACCA 854 1396 AGCUGCUUUAUUCUCCCAU 2070 1397 AGGGUACGAGCUGCUAUGU 545 1398 GAAGACAUCACUGAGCCUG 1640 1399 CGGGAUGUUCACAACCGAA 2012 1400 CAGCCGACACCAAGAAGCA 1684 1401 UGUUCACAACCGAAUUGUU 2017 1402 GCUCUCUCUUCAGAACAGA 2307 1403 UCAGAUGGUGUCUGCUAUU 844 1404 UGAGUGGUAAAGGCAAUCC 405 1405 UGGUGCCACUACCACAGCU 379 1406 UUGUCCCGCAAAUCAUGCA 1825 1407 CACCCUGGUGCUGACUAUC 2495 1408 AAUGUCCAGCGUUUGGCUG 629 1409 GGGCUGCCUCCAGGUGACA 2561 1410 GAGUUACUUCACUCUAGGA 2192 1411 UUCGAAAUCUUGCCCUUUG 1809 1412 GUAUAGAGGCUCUUGUGCG 1596 1413 AGCUGACCAGCUCUCUCUU 2298 1414 CUAUUGUACGUACCAUGCA 858 1415 UAUGCAAUGACUCGAGCUC 524 1416 UGCCCAGGACCUCAUGGAU 2542 1417 AACAAGUAGCUGAUAUUGA 498 1418 AAGGCAAUCCUGAGGAAGA 414 1419 CAAGAUGAUGGUCUGCCAA 1570 1420 UGCCAUUACAACUCUCCAC 1030 1421 AUGUAUGGGUAGGGUAAAU 3087 1422 UGUGCUCUUCGUCAUCUGA 1664 1423 AAGGCUACUGUUGGAUUGA 1790 1424 UACUGUCCUUCGGGCUGGU 1615 1425 AUAAGGCUGCAGUUAUGGU 774 1426 UCGUCAUCUGACCAGCCGA 1672 1427 GUUGUAACCUGCUGUGAUA 3171 1428 AAGAUUACAAGAAACGGCU 2271 1429 UUAUGGCAACCAAGAAAGC 1183 1430 UCCAGUUGAUGGGCUGCCA 2512 1431 GGGACACAGCAGCAAUUUG 1931 1432 AUGAUGGAACAUGAGAUGG 2468 1433 UAUUUGGGAUAUGUAUGGG 3077 1434 CAGCUGCUUUAUUCUCCCA 2069 1435 GCUACUCAAGCUGAUUUGA 272 1436 UCCCUGAGACAUUAGAUGA 564 1437 GUGGAUACCUCCCAAGUCC 437 1438 UAGGAAUGAAGGUGUGGCG 2206 1439 UGACAGAGUUACUUCACUC 2187 1440 AGCGGCUGUUAGUCACUGG 325 1441 AUGGUUCAGAAUUAAACUU 3222 1442 AACCGAAUUGUUAUCAGAG 2024 1443 GGGUGCCAUUCCACGACUA 1858 1444 AUGAUGGUCUGCCAAGUGG 1574 1445 CACAUCAGGAUACCCAGCG 1896 1446 AGGAAUGAAGGUGUGGCGA 2207 1447 GAAGGUGCUAUCUGUCUGC 1300 1448 CCAAGAAAGCAAGCUCAUC 1192 1449 CGAGCUGCUAUGUUCCCUG 551 1450 CCUGGUGCUGACUAUCCAG 2498 1451 UGCUAUCUGUCUGCUCUAG 1305 1452 AUUGUAGAAGCUGGUGGAA 1337 1453

TABLE 1b Various c-CTNNB1 siNA sense and antisense sequences corresponding to the identified target sequences in Table 1a. SEQ SEQ Target Site ID ID (human) NO: Sense Sequence Antisense Sequence NO: 535 1 UCGAGCUCAGAGGGUACGA UCGUACCCUCUGAGCUCGA 4914 1601 2 GAGGCUCUUGUGCGUACUG CAGUACGCACAAGAGCCUC 4915 1709 3 GCCCAGAAUGCAGUUCGCC GGCGAACUGCAUUCUGGGC 4916 536 4 CGAGCUCAGAGGGUACGAG CUCGUACCCUCUGAGCUCG 4917 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAG 4918 853 6 GUCUGCUAUUGUACGUACC GGUACGUACAAUAGCAGAC 4919 1143 7 AAUUCUUGGCUAUUACGAC GUCGUAAUAGCCAAGAAUU 4920 2014 8 GGAUGUUCACAACCGAAUU AAUUCGGUUGUGAACAUCC 4921 520 9 ACAGUAUGCAAUGACUCGA UCGAGUCAUUGCAUACUGU 4922 814 10 AGCUUCCAGACACGCUAUC GAUAGCGUGUCUGGAAGCU 4923 852 11 UGUCUGCUAUUGUACGUAC GUACGUACAAUAGCAGACA 4924 1796 12 ACUGUUGGAUUGAUUCGAA UUCGAAUCAAUCCAACAGU 4925 1901 13 CAGGAUACCCAGCGCCGUA UACGGCGCUGGGUAUCCUG 4926 822 14 GACACGCUAUCAUGCGUUC GAACGCAUGAUAGCGUGUC 4927 1795 15 UACUGUUGGAUUGAUUCGA UCGAAUCAAUCCAACAGUA 4928 1145 16 UUCUUGGCUAUUACGACAG CUGUCGUAAUAGCCAAGAA 4929 823 17 ACACGCUAUCAUGCGUUCU AGAACGCAUGAUAGCGUGU 4930 820 18 CAGACACGCUAUCAUGCGU ACGCAUGAUAGCGUGUCUG 4931 1798 19 UGUUGGAUUGAUUCGAAAU AUUUCGAAUCAAUCCAACA 4932 1380 20 CAGAUCCAAGUCAACGUCU AGACGUUGACUUGGAUCUG 4933 1602 21 AGGCUCUUGUGCGUACUGU ACAGUACGCACAAGAGCCU 4934 1612 22 GCGUACUGUCCUUCGGGCU AGCCCGAAGGACAGUACGC 4935 626 23 ACUAAUGUCCAGCGUUUGG CCAAACGCUGGACAUUAGU 4936 2000 24 CACAUCCUAGCUCGGGAUG CAUCCCGAGCUAGGAUGUG 4937 2665 25 GUUGCUGAGAGGGCUCGAG CUCGAGCCCUCUCAGCAAC 4938 1676 26 CAUCUGACCAGCCGACACC GGUGUCGGCUGGUCAGAUG 4939 1611 27 UGCGUACUGUCCUUCGGGC GCCCGAAGGACAGUACGCA 4940 2269 28 ACAAGAUUACAAGAAACGG CCGUUUCUUGUAAUCUUGU 4941 674 29 GUUGUAAACUUGAUUAACU AGUUAAUCAAGUUUACAAC 4942 678 30 UAAACUUGAUUAACUAUCA UGAUAGUUAAUCAAGUUUA 4943 1245 31 AUAUAAUGAGGACCUAUAC GUAUAGGUCCUCAUUAUAU 4944 679 32 AAACUUGAUUAACUAUCAA UUGAUAGUUAAUCAAGUUU 4945 1970 33 GAAAUAGUUGAAGGUUGUA UACAACCUUCAACUAUUUC 4946 1247 34 AUAAUGAGGACCUAUACUU AAGUAUAGGUCCUCAUUAU 4947 1140 35 UUAAAUUCUUGGCUAUUAC GUAAUAGCCAAGAAUUUAA 4948 676 36 UGUAAACUUGAUUAACUAU AUAGUUAAUCAAGUUUACA 4949 677 37 GUAAACUUGAUUAACUAUC GAUAGUUAAUCAAGUUUAC 4950 675 38 UUGUAAACUUGAUUAACUA UAGUUAAUCAAGUUUACAA 4951 1235 39 GCUUUAGUAAAUAUAAUGA UCAUUAUAUUUACUAAAGC 4952 2488 40 UGGCCACCACCCUGGUGCU AGCACCAGGGUGGUGGCCA 4953 1236 41 CUUUAGUAAAUAUAAUGAG CUCAUUAUAUUUACUAAAG 4954 1237 42 UUUAGUAAAUAUAAUGAGG CCUCAUUAUAUUUACUAAA 4955 2555 43 GUAAAUCGUCCUUUAGGUA UACCUAAAGGACGAUUUAC 4956 1545 44 ACCUCACUUGCAAUAAUUA UAAUUAUUGCAAGUGAGGU 4957 2050 45 UACCAUUCCAUUGUUUGUG CACAAACAAUGGAAUGGUA 4958 2097 46 UCCAAAGAGUAGCUGCAGG CCUGCAGCUACUCUUUGGA 4959 2510 47 UAUCCAGUUGAUGGGCUGC GCAGCCCAUCAACUGGAUA 4960 871 48 CAUGCAGAAUACAAAUGAU AUCAUUUGUAUUCUGCAUG 4961 2098 49 CCAAAGAGUAGCUGCAGGG CCCUGCAGCUACUCUUUGG 4962 1767 50 CACCAUCCCACUGGCCUCU AGAGGCCAGUGGGAUGGUG 4963 869 51 ACCAUGCAGAAUACAAAUG CAUUUGUAUUCUGCAUGGU 4964 1641 52 AAGACAUCACUGAGCCUGC GCAGGCUCAGUGAUGUCUU 4965 2582 53 AAUCAGCUGGCCUGGUUUG CAAACCAGGCCAGCUGAUU 4966 1544 54 AACCUCACUUGCAAUAAUU AAUUAUUGCAAGUGAGGUU 4967 2550 55 ACCUCAUGGAUGGGCUGCC GGCAGCCCAUCCAUGAGGU 4968 2051 56 ACCAUUCCAUUGUUUGUGC GCACAAACAAUGGAAUGGU 4969 870 57 CCAUGCAGAAUACAAAUGA UCAUUUGUAUUCUGCAUGG 4970 1670 58 CUUCGUCAUCUGACCAGCC GGCUGGUCAGAUGACGAAG 4971 2122 59 CUGUGAACUUGCUCAGGAC GUCCUGAGCAAGUUCACAG 4972 1642 60 AGACAUCACUGAGCCUGCC GGCAGGCUCAGUGAUGUCU 4973 2324 61 GAGCCAAUGGCUUGGAAUG CAUUCCAAGCCAUUGGCUC 4974 1649 62 ACUGAGCCUGCCAUCUGUG CACAGAUGGCAGGCUCAGU 4975 2159 63 AUUGAAGCUGAGGGAGCCA UGGCUCCCUCAGCUUCAAU 4976 785 64 GUUAUGGUCCAUCAGCUUU AAAGCUGAUGGACCAUAAC 4977 1511 65 AAUGUGGUCACCUGUGCAG CUGCACAGGUGACCACAUU 4978 2586 66 AGCUGGCCUGGUUUGAUAC GUAUCAAACCAGGCCAGCU 4979 642 67 UGGCUGAACCAUCACAGAU AUCUGUGAUGGUUCAGCCA 4980 1763 68 CACCCACCAUCCCACUGGC GCCAGUGGGAUGGUGGGUG 4981 2328 69 CAAUGGCUUGGAAUGAGAC GUCUCAUUCCAAGCCAUUG 4982 1280 70 UGGACCACAAGCAGAGUGC GCACUCUGCUUGUGGUCCA 4983 2052 71 CCAUUCCAUUGUUUGUGCA UGCACAAACAAUGGAAUGG 4984 2546 72 CAGGACCUCAUGGAUGGGC GCCCAUCCAUGAGGUCCUG 4985 2124 73 GUGAACUUGCUCAGGACAA UUGUCCUGAGCAAGUUCAC 4986 2545 74 CCAGGACCUCAUGGAUGGG CCCAUCCAUGAGGUCCUGG 4987 643 75 GGCUGAACCAUCACAGAUG CAUCUGUGAUGGUUCAGCC 4988 2501 76 GGUGCUGACUAUCCAGUUG CAACUGGAUAGUCAGCACC 4989 2330 77 AUGGCUUGGAAUGAGACUG CAGUCUCAUUCCAAGCCAU 4990 1638 78 GGGAAGACAUCACUGAGCC GGCUCAGUGAUGUCUUCCC 4991 1630 79 UGGUGACAGGGAAGACAUC GAUGUCUUCCCUGUCACCA 4992 616 80 UGCUCAUCCCACUAAUGUC GACAUUAGUGGGAUGAGCA 4993 2509 81 CUAUCCAGUUGAUGGGCUG CAGCCCAUCAACUGGAUAG 4994 2548 82 GGACCUCAUGGAUGGGCUG CAGCCCAUCCAUGAGGUCC 4995 1773 83 CCCACUGGCCUCUGAUAAA UUUAUCAGAGGCCAGUGGG 4996 2247 84 UCCGAAUGUCUGAGGACAA UUGUCCUCAGACAUUCGGA 4997 2331 85 UGGCUUGGAAUGAGACUGC GCAGUCUCAUUCCAAGCCA 4998 1498 86 UUCAGAUGAUAUAAAUGUG CACAUUUAUAUCAUCUGAA 4999 2267 87 CCACAAGAUUACAAGAAAC GUUUCUUGUAAUCUUGUGG 5000 1547 88 CUCACUUGCAAUAAUUAUA UAUAAUUAUUGCAAGUGAG 5001 1549 89 CACUUGCAAUAAUUAUAAG CUUAUAAUUAUUGCAAGUG 5002 867 90 GUACCAUGCAGAAUACAAA UUUGUAUUCUGCAUGGUAC 5003 1390 91 UCAACGUCUUGUUCAGAAC GUUCUGAACAAGACGUUGA 5004 593 92 AUCCCAUCUACACAGUUUG CAAACUGUGUAGAUGGGAU 5005 274 93 UACUCAAGCUGAUUUGAUG CAUCAAAUCAGCUUGAGUA 5006 759 94 ACCAGGUGGUGGUUAAUAA UUAUUAACCACCACCUGGU 5007 1439 95 GCUGCAACUAAACAGGAAG CUUCCUGUUUAGUUGCAGC 5008 1801 96 UGGAUUGAUUCGAAAUCUU AAGAUUUCGAAUCAAUCCA 5009 1500 97 CAGAUGAUAUAAAUGUGGU ACCACAUUUAUAUCAUCUG 5010 848 98 AUGGUGUCUGCUAUUGUAC GUACAAUAGCAGACACCAU 5011 2268 99 CACAAGAUUACAAGAAACG CGUUUCUUGUAAUCUUGUG 5012 882 100 CAAAUGAUGUAGAAACAGC GCUGUUUCUACAUCAUUUG 5013 2266 101 GCCACAAGAUUACAAGAAA UUUCUUGUAAUCUUGUGGC 5014 880 102 UACAAAUGAUGUAGAAACA UGUUUCUACAUCAUUUGUA 5015 1810 103 UCGAAAUCUUGCCCUUUGU ACAAAGGGCAAGAUUUCGA 5016 685 104 GAUUAACUAUCAAGAUGAU AUCAUCUUGAUAGUUAAUC 5017 1007 105 CCAGUGGAUUCUGUGUUGU ACAACACAGAAUCCACUGG 5018 1789 106 AAAGGCUACUGUUGGAUUG CAAUCCAACAGUAGCCUUU 5019 499 107 ACAAGUAGCUGAUAUUGAU AUCAAUAUCAGCUACUUGU 5020 2470 108 GAUGGAACAUGAGAUGGGU ACCCAUCUCAUGUUCCAUC 5021 694 109 UCAAGAUGAUGCAGAACUU AAGUUCUGCAUCAUCUUGA 5022 278 110 CAAGCUGAUUUGAUGGAGU ACUCCAUCAAAUCAGCUUG 5023 1415 111 UGGACUCUCAGGAAUCUUU AAAGAUUCCUGAGAGUCCA 5024 2046 112 UAAAUACCAUUCCAUUGUU AACAAUGGAAUGGUAUUUA 5025 1057 113 AUUACAUCAAGAAGGAGCU AGCUCCUUCUUGAUGUAAU 5026 1422 114 UCAGGAAUCUUUCAGAUGC GCAUCUGAAAGAUUCCUGA 5027 684 115 UGAUUAACUAUCAAGAUGA UCAUCUUGAUAGUUAAUCA 5028 2197 116 ACUUCACUCUAGGAAUGAA UUCAUUCCUAGAGUGAAGU 5029 666 117 AACAUGCAGUUGUAAACUU AAGUUUACAACUGCAUGUU 5030 279 118 AAGCUGAUUUGAUGGAGUU AACUCCAUCAAAUCAGCUU 5031 1492 119 UCUGGGUUCAGAUGAUAUA UAUAUCAUCUGAACCCAGA 5032 2195 120 UUACUUCACUCUAGGAAUG CAUUCCUAGAGUGAAGUAA 5033 1424 121 AGGAAUCUUUCAGAUGCUG CAGCAUCUGAAAGAUUCCU 5034 661 122 GCUGAAACAUGCAGUUGUA UACAACUGCAUGUUUCAGC 5035 1882 123 GUUGCUUGUUCGUGCACAU AUGUGCACGAACAAGCAAC 5036 1966 124 GGAAGAAAUAGUUGAAGGU ACCUUCAACUAUUUCUUCC 5037 2259 125 AGGACAAGCCACAAGAUUA UAAUCUUGUGGCUUGUCCU 5038 832 126 CAUGCGUUCUCCUCAGAUG CAUCUGAGGAGAACGCAUG 5039 2346 127 GAUGAUCCCAGCUACCGUU AACGGUAGCUGGGAUCAUC 5040 1653 128 AGCCUGCCAUCUGUGCUCU AGAGCACAGAUGGCAGGCU 5041 2389 129 UGGAUAUCGCCAGGAUGAU AUCAUCCUGGCGAUAUCCA 5042 1669 130 UCUUCGUCAUCUGACCAGC GCUGGUCAGAUGACGAAGA 5043 2123 131 UGUGAACUUGCUCAGGACA UGUCCUGAGCAAGUUCACA 5044 1521 132 CCUGUGCAGCUGGAAUUCU AGAAUUCCAGCUGCACAGG 5045 2125 133 UGAACUUGCUCAGGACAAG CUUGUCCUGAGCAAGUUCA 5046 2503 134 UGCUGACUAUCCAGUUGAU AUCAACUGGAUAGUCAGCA 5047 1502 135 GAUGAUAUAAAUGUGGUCA UGACCACAUUUAUAUCAUC 5048 2502 136 GUGCUGACUAUCCAGUUGA UCAACUGGAUAGUCAGCAC 5049 2506 137 UGACUAUCCAGUUGAUGGG CCCAUCAACUGGAUAGUCA 5050 2127 138 AACUUGCUCAGGACAAGGA UCCUUGUCCUGAGCAAGUU 5051 2505 139 CUGACUAUCCAGUUGAUGG CCAUCAACUGGAUAGUCAG 5052 617 140 GCUCAUCCCACUAAUGUCC GGACAUUAGUGGGAUGAGC 5053 2504 141 GCUGACUAUCCAGUUGAUG CAUCAACUGGAUAGUCAGC 5054 1503 142 AUGAUAUAAAUGUGGUCAC GUGACCACAUUUAUAUCAU 5055 618 143 CUCAUCCCACUAAUGUCCA UGGACAUUAGUGGGAUGAG 5056 2074 144 GCUUUAUUCUCCCAUUGAA UUCAAUGGGAGAAUAAAGC 5057 2499 145 CUGGUGCUGACUAUCCAGU ACUGGAUAGUCAGCACCAG 5058 1406 146 AACUGUCUUUGGACUCUCA UGAGAGUCCAAAGACAGUU 5059 582 147 AGGGCAUGCAGAUCCCAUC GAUGGGAUCUGCAUGCCCU 5060 1505 148 GAUAUAAAUGUGGUCACCU AGGUGACCACAUUUAUAUC 5061 1432 149 UUCAGAUGCUGCAACUAAA UUUAGUUGCAGCAUCUGAA 5062 1968 150 AAGAAAUAGUUGAAGGUUG CAACCUUCAACUAUUUCUU 5063 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGG 5064 954 152 UGGCCAUCUUUAAGUCUGG CCAGACUUAAAGAUGGCCA 5065 505 153 AGCUGAUAUUGAUGGACAG CUGUCCAUCAAUAUCAGCU 5066 2011 154 UCGGGAUGUUCACAACCGA UCGGUUGUGAACAUCCCGA 5067 1339 155 UGUAGAAGCUGGUGGAAUG CAUUCCACCAGCUUCUACA 5068 1242 156 UAAAUAUAAUGAGGACCUA UAGGUCCUCAUUAUAUUUA 5069 567 157 CUGAGACAUUAGAUGAGGG CCCUCAUCUAAUGUCUCAG 5070 1240 158 AGUAAAUAUAAUGAGGACC GGUCCUCAUUAUAUUUACU 5071 438 159 UGGAUACCUCCCAAGUCCU AGGACUUGGGAGGUAUCCA 5072 2445 160 AGGAUGCCUUGGGUAUGGA UCCAUACCCAAGGCAUCCU 5073 860 161 AUUGUACGUACCAUGCAGA UCUGCAUGGUACGUACAAU 5074 1413 162 UUUGGACUCUCAGGAAUCU AGAUUCCUGAGAGUCCAAA 5075 1800 163 UUGGAUUGAUUCGAAAUCU AGAUUUCGAAUCAAUCCAA 5076 2037 164 UCAGAGGACUAAAUACCAU AUGGUAUUUAGUCCUCUGA 5077 2443 165 CCAGGAUGCCUUGGGUAUG CAUACCCAAGGCAUCCUGG 5078 2471 166 AUGGAACAUGAGAUGGGUG CACCCAUCUCAUGUUCCAU 5079 1792 167 GGCUACUGUUGGAUUGAUU AAUCAAUCCAACAGUAGCC 5080 2547 168 AGGACCUCAUGGAUGGGCU AGCCCAUCCAUGAGGUCCU 5081 1662 169 UCUGUGCUCUUCGUCAUCU AGAUGACGAAGAGCACAGA 5082 288 170 UGAUGGAGUUGGACAUGGC GCCAUGUCCAACUCCAUCA 5083 579 171 AUGAGGGCAUGCAGAUCCC GGGAUCUGCAUGCCCUCAU 5084 2508 172 ACUAUCCAGUUGAUGGGCU AGCCCAUCAACUGGAUAGU 5085 580 173 UGAGGGCAUGCAGAUCCCA UGGGAUCUGCAUGCCCUCA 5086 2388 174 UUGGAUAUCGCCAGGAUGA UCAUCCUGGCGAUAUCCAA 5087 2543 175 GCCCAGGACCUCAUGGAUG CAUCCAUGAGGUCCUGGGC 5088 708 176 AACUUGCCACACGUGCAAU AUUGCACGUGUGGCAAGUU 5089 447 177 CCCAAGUCCUGUAUGAGUG CACUCAUACAGGACUUGGG 5090 654 178 CACAGAUGCUGAAACAUGC GCAUGUUUCAGCAUCUGUG 5091 912 179 CUGGGACCUUGCAUAACCU AGGUUAUGCAAGGUCCCAG 5092 1009 180 AGUGGAUUCUGUGUUGUUU AAACAACACAGAAUCCACU 5093 1354 181 AAUGCAAGCUUUAGGACUU AAGUCCUAAAGCUUGCAUU 5094 1969 182 AGAAAUAGUUGAAGGUUGU ACAACCUUCAACUAUUUCU 5095 1959 183 UCCGCAUGGAAGAAAUAGU ACUAUUUCUUCCAUGCGGA 5096 557 184 GCUAUGUUCCCUGAGACAU AUGUCUCAGGGAACAUAGC 5097 403 185 UCUGAGUGGUAAAGGCAAU AUUGCCUUUACCACUCAGA 5098 1356 186 UGCAAGCUUUAGGACUUCA UGAAGUCCUAAAGCUUGCA 5099 517 187 UGGACAGUAUGCAAUGACU AGUCAUUGCAUACUGUCCA 5100 1238 188 UUAGUAAAUAUAAUGAGGA UCCUCAUUAUAUUUACUAA 5101 843 189 CUCAGAUGGUGUCUGCUAU AUAGCAGACACCAUCUGAG 5102 496 190 AGAACAAGUAGCUGAUAUU AAUAUCAGCUACUUGUUCU 5103 2387 191 CUUGGAUAUCGCCAGGAUG CAUCCUGGCGAUAUCCAAG 5104 1660 192 CAUCUGUGCUCUUCGUCAU AUGACGAAGAGCACAGAUG 5105 2497 193 CCCUGGUGCUGACUAUCCA UGGAUAGUCAGCACCAGGG 5106 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGU 5107 2353 195 UCUUGGACUUGAUAUUGGU ACCAAUAUCAAGUCCAAGA 5108 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCC 5109 878 197 AAUACAAAUGAUGUAGAAA UUUCUACAUCAUUUGUAUU 5110 647 198 GAACCAUCACAGAUGCUGA UCAGCAUCUGUGAUGGUUC 5111 1998 199 UUCACAUCCUAGCUCGGGA UCCCGAGCUAGGAUGUGAA 5112 588 200 UGCAGAUCCCAUCUACACA UGUGUAGAUGGGAUCUGCA 5113 2042 201 GGACUAAAUACCAUUCCAU AUGGAAUGGUAUUUAGUCC 5114 855 202 CUGCUAUUGUACGUACCAU AUGGUACGUACAAUAGCAG 5115 2038 203 CAGAGGACUAAAUACCAUU AAUGGUAUUUAGUCCUCUG 5116 1786 204 GAUAAAGGCUACUGUUGGA UCCAACAGUAGCCUUUAUC 5117 1501 205 AGAUGAUAUAAAUGUGGUC GACCACAUUUAUAUCAUCU 5118 1834 206 AAAUCAUGCACCUUUGCGU ACGCAAAGGUGCAUGAUUU 5119 1157 207 ACGACAGACUGCCUUCAAA UUUGAAGGCAGUCUGUCGU 5120 1239 208 UAGUAAAUAUAAUGAGGAC GUCCUCAUUAUAUUUACUA 5121 1248 209 UAAUGAGGACCUAUACUUA UAAGUAUAGGUCCUCAUUA 5122 660 210 UGCUGAAACAUGCAGUUGU ACAACUGCAUGUUUCAGCA 5123 285 211 AUUUGAUGGAGUUGGACAU AUGUCCAACUCCAUCAAAU 5124 1582 212 CUGCCAAGUGGGUGGUAUA UAUACCACCCACUUGGCAG 5125 1735 213 UGGACUACCAGUUGUGGUU AACCACAACUGGUAGUCCA 5126 771 214 UUAAUAAGGCUGCAGUUAU AUAACUGCAGCCUUAUUAA 5127 1060 215 ACAUCAAGAAGGAGCUAAA UUUAGCUCCUUCUUGAUGU 5128 2390 216 GGAUAUCGCCAGGAUGAUC GAUCAUCCUGGCGAUAUCC 5129 2186 217 CUGACAGAGUUACUUCACU AGUGAAGUAACUCUGUCAG 5130 1632 218 GUGACAGGGAAGACAUCAC GUGAUGUCUUCCCUGUCAC 5131 619 219 UCAUCCCACUAAUGUCCAG CUGGACAUUAGUGGGAUGA 5132 1656 220 CUGCCAUCUGUGCUCUUCG CGAAGAGCACAGAUGGCAG 5133 1506 221 AUAUAAAUGUGGUCACCUG CAGGUGACCACAUUUAUAU 5134 2494 222 CCACCCUGGUGCUGACUAU AUAGUCAGCACCAGGGUGG 5135 1666 223 UGCUCUUCGUCAUCUGACC GGUCAGAUGACGAAGAGCA 5136 1635 224 ACAGGGAAGACAUCACUGA UCAGUGAUGUCUUCCCUGU 5137 294 225 AGUUGGACAUGGCCAUGGA UCCAUGGCCAUGUCCAACU 5138 641 226 UUGGCUGAACCAUCACAGA UCUGUGAUGGUUCAGCCAA 5139 576 227 UAGAUGAGGGCAUGCAGAU AUCUGCAUGCCCUCAUCUA 5140 577 228 AGAUGAGGGCAUGCAGAUC GAUCUGCAUGCCCUCAUCU 5141 1661 229 AUCUGUGCUCUUCGUCAUC GAUGACGAAGAGCACAGAU 5142 707 230 GAACUUGCCACACGUGCAA UUGCACGUGUGGCAAGUUC 5143 1659 231 CCAUCUGUGCUCUUCGUCA UGACGAAGAGCACAGAUGG 5144 1185 232 AUGGCAACCAAGAAAGCAA UUGCUUUCUUGGUUGCCAU 5145 664 233 GAAACAUGCAGUUGUAAAC GUUUACAACUGCAUGUUUC 5146 1749 234 UGGUUAAGCUCUUACACCC GGGUGUAAGAGCUUAACCA 5147 1234 235 AGCUUUAGUAAAUAUAAUG CAUUAUAUUUACUAAAGCU 5148 691 236 CUAUCAAGAUGAUGCAGAA UUCUGCAUCAUCUUGAUAG 5149 1387 237 AAGUCAACGUCUUGUUCAG CUGAACAAGACGUUGACUU 5150 1382 238 GAUCCAAGUCAACGUCUUG CAAGACGUUGACUUGGAUC 5151 828 239 CUAUCAUGCGUUCUCCUCA UGAGGAGAACGCAUGAUAG 5152 1244 240 AAUAUAAUGAGGACCUAUA UAUAGGUCCUCAUUAUAUU 5153 1304 241 GUGCUAUCUGUCUGCUCUA UAGAGCAGACAGAUAGCAC 5154 812 242 GAAGCUUCCAGACACGCUA UAGCGUGUCUGGAAGCUUC 5155 1558 243 UAAUUAUAAGAACAAGAUG CAUCUUGUUCUUAUAAUUA 5156 879 244 AUACAAAUGAUGUAGAAAC GUUUCUACAUCAUUUGUAU 5157 1311 245 CUGUCUGCUCUAGUAAUAA UUAUUACUAGAGCAGACAG 5158 856 246 UGCUAUUGUACGUACCAUG CAUGGUACGUACAAUAGCA 5159 1296 247 UGCUGAAGGUGCUAUCUGU ACAGAUAGCACCUUCAGCA 5160 960 248 UCUUUAAGUCUGGAGGCAU AUGCCUCCAGACUUAAAGA 5161 2049 249 AUACCAUUCCAUUGUUUGU ACAAACAAUGGAAUGGUAU 5162 1791 250 AGGCUACUGUUGGAUUGAU AUCAAUCCAACAGUAGCCU 5163 783 251 CAGUUAUGGUCCAUCAGCU AGCUGAUGGACCAUAACUG 5164 1569 252 ACAAGAUGAUGGUCUGCCA UGGCAGACCAUCAUCUUGU 5165 2224 253 GACAUAUGCAGCUGCUGUU AACAGCAGCUGCAUAUGUC 5166 934 254 CCAUCAUCGUGAGGGCUUA UAAGCCCUCACGAUGAUGG 5167 1378 255 GACAGAUCCAAGUCAACGU ACGUUGACUUGGAUCUGUC 5168 569 256 GAGACAUUAGAUGAGGGCA UGCCCUCAUCUAAUGUCUC 5169 1722 257 UUCGCCUUCACUAUGGACU AGUCCAUAGUGAAGGCGAA 5170 1483 258 UGUUCAGCUUCUGGGUUCA UGAACCCAGAAGCUGAACA 5171 2352 259 AUCUUGGACUUGAUAUUGG CCAAUAUCAAGUCCAAGAU 5172 719 260 CGUGCAAUCCCUGAACUGA UCAGUUCAGGGAUUGCACG 5173 762 261 AGGUGGUGGUUAAUAAGGC GCCUUAUUAACCACCACCU 5174 599 262 UCUACACAGUUUGAUGCUG CAGCAUCAAACUGUGUAGA 5175 1704 263 AGAUGGCCCAGAAUGCAGU ACUGCAUUCUGGGCCAUCU 5176 2270 264 CAAGAUUACAAGAAACGGC GCCGUUUCUUGUAAUCUUG 5177 662 265 CUGAAACAUGCAGUUGUAA UUACAACUGCAUGUUUCAG 5178 396 266 CUCCUUCUCUGAGUGGUAA UUACCACUCAGAGAAGGAG 5179 1199 267 AGCAAGCUCAUCAUACUGG CCAGUAUGAUGAGCUUGCU 5180 1560 268 AUUAUAAGAACAAGAUGAU AUCAUCUUGUUCUUAUAAU 5181 1310 269 UCUGUCUGCUCUAGUAAUA UAUUACUAGAGCAGACAGA 5182 1233 270 AAGCUUUAGUAAAUAUAAU AUUAUAUUUACUAAAGCUU 5183 1330 271 GCCGGCUAUUGUAGAAGCU AGCUUCUACAAUAGCCGGC 5184 1312 272 UGUCUGCUCUAGUAAUAAG CUUAUUACUAGAGCAGACA 5185 1556 273 AAUAAUUAUAAGAACAAGA UCUUGUUCUUAUAAUUAUU 5186 2438 274 UAUGGCCAGGAUGCCUUGG CCAAGGCAUCCUGGCCAUA 5187 1826 275 UGUCCCGCAAAUCAUGCAC GUGCAUGAUUUGCGGGACA 5188 1397 276 CUUGUUCAGAACUGUCUUU AAAGACAGUUCUGAACAAG 5189 3181 277 GCUGUGAUACGAUGCUUCA UGAAGCAUCGUAUCACAGC 5190 1912 278 GCGCCGUACGUCCAUGGGU ACCCAUGGACGUACGGCGC 5191 846 279 AGAUGGUGUCUGCUAUUGU ACAAUAGCAGACACCAUCU 5192 1404 280 AGAACUGUCUUUGGACUCU AGAGUCCAAAGACAGUUCU 5193 586 281 CAUGCAGAUCCCAUCUACA UGUAGAUGGGAUCUGCAUG 5194 1469 282 CUCCUUGGGACUCUUGUUC GAACAAGAGUCCCAAGGAG 5195 380 283 GGUGCCACUACCACAGCUC GAGCUGUGGUAGUGGCACC 5196 1345 284 AGCUGGUGGAAUGCAAGCU AGCUUGCAUUCCACCAGCU 5197 1863 285 CCAUUCCACGACUAGUUCA UGAACUAGUCGUGGAAUGG 5198 635 286 CAGCGUUUGGCUGAACCAU AUGGUUCAGCCAAACGCUG 5199 959 287 AUCUUUAAGUCUGGAGGCA UGCCUCCAGACUUAAAGAU 5200 2440 288 UGGCCAGGAUGCCUUGGGU ACCCAAGGCAUCCUGGCCA 5201 877 289 GAAUACAAAUGAUGUAGAA UUCUACAUCAUUUGUAUUC 5202 2556 290 UGGAUGGGCUGCCUCCAGG CCUGGAGGCAGCCCAUCCA 5203 1916 291 CGUACGUCCAUGGGUGGGA UCCCACCCAUGGACGUACG 5204 850 292 GGUGUCUGCUAUUGUACGU ACGUACAAUAGCAGACACC 5205 1303 293 GGUGCUAUCUGUCUGCUCU AGAGCAGACAGAUAGCACC 5206 1726 294 CCUUCACUAUGGACUACCA UGGUAGUCCAUAGUGAAGG 5207 1477 295 GACUCUUGUUCAGCUUCUG CAGAAGCUGAACAAGAGUC 5208 598 296 AUCUACACAGUUUGAUGCU AGCAUCAAACUGUGUAGAU 5209 2062 297 GUUUGUGCAGCUGCUUUAU AUAAAGCAGCUGCACAAAC 5210 2278 298 CAAGAAACGGCUUUCAGUU AACUGAAAGCCGUUUCUUG 5211 1877 299 GUUCAGUUGCUUGUUCGUG CACGAACAAGCAACUGAAC 5212 1499 300 UCAGAUGAUAUAAAUGUGG CCACAUUUAUAUCAUCUGA 5213 1136 301 AAUGUUAAAUUCUUGGCUA UAGCCAAGAAUUUAACAUU 5214 1494 302 UGGGUUCAGAUGAUAUAAA UUUAUAUCAUCUGAACCCA 5215 1972 303 AAUAGUUGAAGGUUGUACC GGUACAACCUUCAACUAUU 5216 668 304 CAUGCAGUUGUAAACUUGA UCAAGUUUACAACUGCAUG 5217 2945 305 AAUCUGAAUAAAGUGUAAC GUUACACUUUAUUCAGAUU 5218 2492 306 CACCACCCUGGUGCUGACU AGUCAGCACCAGGGUGGUG 5219 293 307 GAGUUGGACAUGGCCAUGG CCAUGGCCAUGUCCAACUC 5220 1905 308 AUACCCAGCGCCGUACGUC GACGUACGGCGCUGGGUAU 5221 944 309 GAGGGCUUACUGGCCAUCU AGAUGGCCAGUAAGCCCUC 5222 581 310 GAGGGCAUGCAGAUCCCAU AUGGGAUCUGCAUGCCCUC 5223 1454 311 GAAGGGAUGGAAGGUCUCC GGAGACCUUCCAUCCCUUC 5224 2254 312 GUCUGAGGACAAGCCACAA UUGUGGCUUGUCCUCAGAC 5225 1837 313 UCAUGCACCUUUGCGUGAG CUCACGCAAAGGUGCAUGA 5226 1425 314 GGAAUCUUUCAGAUGCUGC GCAGCAUCUGAAAGAUUCC 5227 1372 315 UCACCUGACAGAUCCAAGU ACUUGGAUCUGUCAGGUGA 5228 1298 316 CUGAAGGUGCUAUCUGUCU AGACAGAUAGCACCUUCAG 5229 1674 317 GUCAUCUGACCAGCCGACA UGUCGGCUGGUCAGAUGAC 5230 1864 318 CAUUCCACGACUAGUUCAG CUGAACUAGUCGUGGAAUG 5231 2404 319 UGAUCCUAGCUAUCGUUCU AGAACGAUAGCUAGGAUCA 5232 1992 320 GAGCCCUUCACAUCCUAGC GCUAGGAUGUGAAGGGCUC 5233 578 321 GAUGAGGGCAUGCAGAUCC GGAUCUGCAUGCCCUCAUC 5234 3091 322 AUGGGUAGGGUAAAUCAGU ACUGAUUUACCCUACCCAU 5235 720 323 GUGCAAUCCCUGAACUGAC GUCAGUUCAGGGAUUGCAC 5236 2054 324 AUUCCAUUGUUUGUGCAGC GCUGCACAAACAAUGGAAU 5237 374 325 CAUUCUGGUGCCACUACCA UGGUAGUGGCACCAGAAUG 5238 868 326 UACCAUGCAGAAUACAAAU AUUUGUAUUCUGCAUGGUA 5239 1716 327 AUGCAGUUCGCCUUCACUA UAGUGAAGGCGAACUGCAU 5240 950 328 UUACUGGCCAUCUUUAAGU ACUUAAAGAUGGCCAGUAA 5241 1489 329 GCUUCUGGGUUCAGAUGAU AUCAUCUGAACCCAGAAGC 5242 1451 330 CAGGAAGGGAUGGAAGGUC GACCUUCCAUCCCUUCCUG 5243 1181 331 GCUUAUGGCAACCAAGAAA UUUCUUGGUUGCCAUAAGC 5244 1633 332 UGACAGGGAAGACAUCACU AGUGAUGUCUUCCCUGUCA 5245 2394 333 AUCGCCAGGAUGAUCCUAG CUAGGAUCAUCCUGGCGAU 5246 1322 334 AGUAAUAAGCCGGCUAUUG CAAUAGCCGGCUUAUUACU 5247 884 335 AAUGAUGUAGAAACAGCUC GAGCUGUUUCUACAUCAUU 5248 2255 336 UCUGAGGACAAGCCACAAG CUUGUGGCUUGUCCUCAGA 5249 1466 337 GGUCUCCUUGGGACUCUUG CAAGAGUCCCAAGGAGACC 5250 1399 338 UGUUCAGAACUGUCUUUGG CCAAAGACAGUUCUGAACA 5251 378 339 CUGGUGCCACUACCACAGC GCUGUGGUAGUGGCACCAG 5252 1921 340 GUCCAUGGGUGGGACACAG CUGUGUCCCACCCAUGGAC 5253 1085 341 GUGCGUUUAGCUGGUGGGC GCCCACCAGCUAAACGCAC 5254 865 342 ACGUACCAUGCAGAAUACA UGUAUUCUGCAUGGUACGU 5255 2015 343 GAUGUUCACAACCGAAUUG CAAUUCGGUUGUGAACAUC 5256 1195 344 AGAAAGCAAGCUCAUCAUA UAUGAUGAGCUUGCUUUCU 5257 1484 345 GUUCAGCUUCUGGGUUCAG CUGAACCCAGAAGCUGAAC 5258 1855 346 GCAGGGUGCCAUUCCACGA UCGUGGAAUGGCACCCUGC 5259 1341 347 UAGAAGCUGGUGGAAUGCA UGCAUUCCACCAGCUUCUA 5260 1963 348 CAUGGAAGAAAUAGUUGAA UUCAACUAUUUCUUCCAUG 5261 2362 349 UGAUAUUGGUGCCCAGGGA UCCCUGGGCACCAAUAUCA 5262 584 350 GGCAUGCAGAUCCCAUCUA UAGAUGGGAUCUGCAUGCC 5263 1613 351 CGUACUGUCCUUCGGGCUG CAGCCCGAAGGACAGUACG 5264 1155 352 UUACGACAGACUGCCUUCA UGAAGGCAGUCUGUCGUAA 5265 334 353 UAGUCACUGGCAGCAACAG CUGUUGCUGCCAGUGACUA 5266 1031 354 GCCAUUACAACUCUCCACA UGUGGAGAGUUGUAAUGGC 5267 1725 355 GCCUUCACUAUGGACUACC GGUAGUCCAUAGUGAAGGC 5268 2018 356 GUUCACAACCGAAUUGUUA UAACAAUUCGGUUGUGAAC 5269 914 357 GGGACCUUGCAUAACCUUU AAAGGUUAUGCAAGGUCCC 5270 2264 358 AAGCCACAAGAUUACAAGA UCUUGUAAUCUUGUGGCUU 5271 343 359 GCAGCAACAGUCUUACCUG CAGGUAAGACUGUUGCUGC 5272 1056 360 UAUUACAUCAAGAAGGAGC GCUCCUUCUUGAUGUAAUA 5273 772 361 UAAUAAGGCUGCAGUUAUG CAUAACUGCAGCCUUAUUA 5274 763 362 GGUGGUGGUUAAUAAGGCU AGCCUUAUUAACCACCACC 5275 628 363 UAAUGUCCAGCGUUUGGCU AGCCAAACGCUGGACAUUA 5276 399 364 CUUCUCUGAGUGGUAAAGG CCUUUACCACUCAGAGAAG 5277 1682 365 ACCAGCCGACACCAAGAAG CUUCUUGGUGUCGGCUGGU 5278 441 366 AUACCUCCCAAGUCCUGUA UACAGGACUUGGGAGGUAU 5279 1729 367 UCACUAUGGACUACCAGUU AACUGGUAGUCCAUAGUGA 5280 1902 368 AGGAUACCCAGCGCCGUAC GUACGGCGCUGGGUAUCCU 5281 1637 369 AGGGAAGACAUCACUGAGC GCUCAGUGAUGUCUUCCCU 5282 2391 370 GAUAUCGCCAGGAUGAUCC GGAUCAUCCUGGCGAUAUC 5283 501 371 AAGUAGCUGAUAUUGAUGG CCAUCAAUAUCAGCUACUU 5284 1358 372 CAAGCUUUAGGACUUCACC GGUGAAGUCCUAAAGCUUG 5285 1821 373 CCCUUUGUCCCGCAAAUCA UGAUUUGCGGGACAAAGGG 5286 575 374 UUAGAUGAGGGCAUGCAGA UCUGCAUGCCCUCAUCUAA 5287 528 375 CAAUGACUCGAGCUCAGAG CUCUGAGCUCGAGUCAUUG 5288 2433 376 GUGGAUAUGGCCAGGAUGC GCAUCCUGGCCAUAUCCAC 5289 1497 377 GUUCAGAUGAUAUAAAUGU ACAUUUAUAUCAUCUGAAC 5290 2134 378 UCAGGACAAGGAAGCUGCA UGCAGCUUCCUUGUCCUGA 5291 2160 379 UUGAAGCUGAGGGAGCCAC GUGGCUCCCUCAGCUUCAA 5292 291 380 UGGAGUUGGACAUGGCCAU AUGGCCAUGUCCAACUCCA 5293 657 381 AGAUGCUGAAACAUGCAGU ACUGCAUGUUUCAGCAUCU 5294 1575 382 UGAUGGUCUGCCAAGUGGG CCCACUUGGCAGACCAUCA 5295 667 383 ACAUGCAGUUGUAAACUUG CAAGUUUACAACUGCAUGU 5296 2190 384 CAGAGUUACUUCACUCUAG CUAGAGUGAAGUAACUCUG 5297 532 385 GACUCGAGCUCAGAGGGUA UACCCUCUGAGCUCGAGUC 5298 953 386 CUGGCCAUCUUUAAGUCUG CAGACUUAAAGAUGGCCAG 5299 3188 387 UACGAUGCUUCAAGAGAAA UUUCUCUUGAAGCAUCGUA 5300 2301 388 UGACCAGCUCUCUCUUCAG CUGAAGAGAGAGCUGGUCA 5301 2310 389 CUCUCUUCAGAACAGAGCC GGCUCUGUUCUGAAGAGAG 5302 2287 390 GCUUUCAGUUGAGCUGACC GGUCAGCUCAACUGAAAGC 5303 1927 391 GGGUGGGACACAGCAGCAA UUGCUGCUGUGUCCCACCC 5304 712 392 UGCCACACGUGCAAUCCCU AGGGAUUGCACGUGUGGCA 5305 2121 393 UCUGUGAACUUGCUCAGGA UCCUGAGCAAGUUCACAGA 5306 2898 394 UGAGUAAUGGUGUAGAACA UGUUCUACACCAUUACUCA 5307 1799 395 GUUGGAUUGAUUCGAAAUC GAUUUCGAAUCAAUCCAAC 5308 1036 396 UACAACUCUCCACAACCUU AAGGUUGUGGAGAGUUGUA 5309 449 397 CAAGUCCUGUAUGAGUGGG CCCACUCAUACAGGACUUG 5310 1452 398 AGGAAGGGAUGGAAGGUCU AGACCUUCCAUCCCUUCCU 5311 1203 399 AGCUCAUCAUACUGGCUAG CUAGCCAGUAUGAUGAGCU 5312 1357 400 GCAAGCUUUAGGACUUCAC GUGAAGUCCUAAAGCUUGC 5313 1512 401 AUGUGGUCACCUGUGCAGC GCUGCACAGGUGACCACAU 5314 275 402 ACUCAAGCUGAUUUGAUGG CCAUCAAAUCAGCUUGAGU 5315 299 403 GACAUGGCCAUGGAACCAG CUGGUUCCAUGGCCAUGUC 5316 1241 404 GUAAAUAUAAUGAGGACCU AGGUCCUCAUUAUAUUUAC 5317 1961 405 CGCAUGGAAGAAAUAGUUG CAACUAUUUCUUCCAUGCG 5318 1436 406 GAUGCUGCAACUAAACAGG CCUGUUUAGUUGCAGCAUC 5319 2469 407 UGAUGGAACAUGAGAUGGG CCCAUCUCAUGUUCCAUCA 5320 760 408 CCAGGUGGUGGUUAAUAAG CUUAUUAACCACCACCUGG 5321 2257 409 UGAGGACAAGCCACAAGAU AUCUUGUGGCUUGUCCUCA 5322 952 410 ACUGGCCAUCUUUAAGUCU AGACUUAAAGAUGGCCAGU 5323 2283 411 AACGGCUUUCAGUUGAGCU AGCUCAACUGAAAGCCGUU 5324 1794 412 CUACUGUUGGAUUGAUUCG CGAAUCAAUCCAACAGUAG 5325 1745 413 GUUGUGGUUAAGCUCUUAC GUAAGAGCUUAACCACAAC 5326 1211 414 AUACUGGCUAGUGGUGGAC GUCCACCACUAGCCAGUAU 5327 2549 415 GACCUCAUGGAUGGGCUGC GCAGCCCAUCCAUGAGGUC 5328 2007 416 UAGCUCGGGAUGUUCACAA UUGUGAACAUCCCGAGCUA 5329 2474 417 GAACAUGAGAUGGGUGGCC GGCCACCCAUCUCAUGUUC 5330 1712 418 CAGAAUGCAGUUCGCCUUC GAAGGCGAACUGCAUUCUG 5331 1919 419 ACGUCCAUGGGUGGGACAC GUGUCCCACCCAUGGACGU 5332 1000 420 UGGUUCACCAGUGGAUUCU AGAAUCCACUGGUGAACCA 5333 2392 421 AUAUCGCCAGGAUGAUCCU AGGAUCAUCCUGGCGAUAU 5334 1449 422 AACAGGAAGGGAUGGAAGG CCUUCCAUCCCUUCCUGUU 5335 2294 423 GUUGAGCUGACCAGCUCUC GAGAGCUGGUCAGCUCAAC 5336 1135 424 AAAUGUUAAAUUCUUGGCU AGCCAAGAAUUUAACAUUU 5337 1333 425 GGCUAUUGUAGAAGCUGGU ACCAGCUUCUACAAUAGCC 5338 1743 426 CAGUUGUGGUUAAGCUCUU AAGAGCUUAACCACAACUG 5339 600 427 CUACACAGUUUGAUGCUGC GCAGCAUCAAACUGUGUAG 5340 970 428 UGGAGGCAUUCCUGCCCUG CAGGGCAGGAAUGCCUCCA 5341 3137 429 GGACAGUUUACCAGUUGCC GGCAACUGGUAAACUGUCC 5342 372 430 UCCAUUCUGGUGCCACUAC GUAGUGGCACCAGAAUGGA 5343 1761 431 UACACCCACCAUCCCACUG CAGUGGGAUGGUGGGUGUA 5344 1650 432 CUGAGCCUGCCAUCUGUGC GCACAGAUGGCAGGCUCAG 5345 972 433 GAGGCAUUCCUGCCCUGGU ACCAGGGCAGGAAUGCCUC 5346 1147 434 CUUGGCUAUUACGACAGAC GUCUGUCGUAAUAGCCAAG 5347 565 435 CCCUGAGACAUUAGAUGAG CUCAUCUAAUGUCUCAGGG 5348 525 436 AUGCAAUGACUCGAGCUCA UGAGCUCGAGUCAUUGCAU 5349 1599 437 UAGAGGCUCUUGUGCGUAC GUACGCACAAGAGCCUCUA 5350 2199 438 UUCACUCUAGGAAUGAAGG CCUUCAUUCCUAGAGUGAA 5351 2261 439 GACAAGCCACAAGAUUACA UGUAAUCUUGUGGCUUGUC 5352 705 440 CAGAACUUGCCACACGUGC GCACGUGUGGCAAGUUCUG 5353 916 441 GACCUUGCAUAACCUUUCC GGAAAGGUUAUGCAAGGUC 5354 385 442 CACUACCACAGCUCCUUCU AGAAGGAGCUGUGGUAGUG 5355 3076 443 CUAUUUGGGAUAUGUAUGG CCAUACAUAUCCCAAAUAG 5356 1396 444 UCUUGUUCAGAACUGUCUU AAGACAGUUCUGAACAAGA 5357 2447 445 GAUGCCUUGGGUAUGGACC GGUCCAUACCCAAGGCAUC 5358 1338 446 UUGUAGAAGCUGGUGGAAU AUUCCACCAGCUUCUACAA 5359 2215 447 AGGUGUGGCGACAUAUGCA UGCAUAUGUCGCCACACCU 5360 722 448 GCAAUCCCUGAACUGACAA UUGUCAGUUCAGGGAUUGC 5361 1316 449 UGCUCUAGUAAUAAGCCGG CCGGCUUAUUACUAGAGCA 5362 1687 450 CCGACACCAAGAAGCAGAG CUCUGCUUCUUGGUGUCGG 5363 697 451 AGAUGAUGCAGAACUUGCC GGCAAGUUCUGCAUCAUCU 5364 2517 452 UUGAUGGGCUGCCAGAUCU AGAUCUGGCAGCCCAUCAA 5365 1685 453 AGCCGACACCAAGAAGCAG CUGCUUCUUGGUGUCGGCU 5366 3090 454 UAUGGGUAGGGUAAAUCAG CUGAUUUACCCUACCCAUA 5367 1205 455 CUCAUCAUACUGGCUAGUG CACUAGCCAGUAUGAUGAG 5368 1153 456 UAUUACGACAGACUGCCUU AAGGCAGUCUGUCGUAAUA 5369 723 457 CAAUCCCUGAACUGACAAA UUUGUCAGUUCAGGGAUUG 5370 1468 458 UCUCCUUGGGACUCUUGUU AACAAGAGUCCCAAGGAGA 5371 2480 459 GAGAUGGGUGGCCACCACC GGUGGUGGCCACCCAUCUC 5372 1856 460 CAGGGUGCCAUUCCACGAC GUCGUGGAAUGGCACCCUG 5373 2193 461 AGUUACUUCACUCUAGGAA UUCCUAGAGUGAAGUAACU 5374 2355 462 UUGGACUUGAUAUUGGUGC GCACCAAUAUCAAGUCCAA 5375 1995 463 CCCUUCACAUCCUAGCUCG CGAGCUAGGAUGUGAAGGG 5376 821 464 AGACACGCUAUCAUGCGUU AACGCAUGAUAGCGUGUCU 5377 1715 465 AAUGCAGUUCGCCUUCACU AGUGAAGGCGAACUGCAUU 5378 1182 466 CUUAUGGCAACCAAGAAAG CUUUCUUGGUUGCCAUAAG 5379 445 467 CUCCCAAGUCCUGUAUGAG CUCAUACAGGACUUGGGAG 5380 1759 468 CUUACACCCACCAUCCCAC GUGGGAUGGUGGGUGUAAG 5381 1461 469 UGGAAGGUCUCCUUGGGAC GUCCCAAGGAGACCUUCCA 5382 1993 470 AGCCCUUCACAUCCUAGCU AGCUAGGAUGUGAAGGGCU 5383 2558 471 GAUGGGCUGCCUCCAGGUG CACCUGGAGGCAGCCCAUC 5384 1488 472 AGCUUCUGGGUUCAGAUGA UCAUCUGAACCCAGAAGCU 5385 1652 473 GAGCCUGCCAUCUGUGCUC GAGCACAGAUGGCAGGCUC 5386 963 474 UUAAGUCUGGAGGCAUUCC GGAAUGCCUCCAGACUUAA 5387 1520 475 ACCUGUGCAGCUGGAAUUC GAAUUCCAGCUGCACAGGU 5388 1828 476 UCCCGCAAAUCAUGCACCU AGGUGCAUGAUUUGCGGGA 5389 2214 477 AAGGUGUGGCGACAUAUGC GCAUAUGUCGCCACACCUU 5390 2155 478 AGCUAUUGAAGCUGAGGGA UCCCUCAGCUUCAAUAGCU 5391 332 479 GUUAGUCACUGGCAGCAAC GUUGCUGCCAGUGACUAAC 5392 1878 480 UUCAGUUGCUUGUUCGUGC GCACGAACAAGCAACUGAA 5393 1573 481 GAUGAUGGUCUGCCAAGUG CACUUGGCAGACCAUCAUC 5394 1446 482 CUAAACAGGAAGGGAUGGA UCCAUCCCUUCCUGUUUAG 5395 1868 483 CCACGACUAGUUCAGUUGC GCAACUGAACUAGUCGUGG 5396 1873 484 ACUAGUUCAGUUGCUUGUU AACAAGCAACUGAACUAGU 5397 1002 485 GUUCACCAGUGGAUUCUGU ACAGAAUCCACUGGUGAAC 5398 408 486 GUGGUAAAGGCAAUCCUGA UCAGGAUUGCCUUUACCAC 5399 287 487 UUGAUGGAGUUGGACAUGG CCAUGUCCAACUCCAUCAA 5400 2128 488 ACUUGCUCAGGACAAGGAA UUCCUUGUCCUGAGCAAGU 5401 2513 489 CCAGUUGAUGGGCUGCCAG CUGGCAGCCCAUCAACUGG 5402 1196 490 GAAAGCAAGCUCAUCAUAC GUAUGAUGAGCUUGCUUUC 5403 572 491 ACAUUAGAUGAGGGCAUGC GCAUGCCCUCAUCUAAUGU 5404 622 492 UCCCACUAAUGUCCAGCGU ACGCUGGACAUUAGUGGGA 5405 1187 493 GGCAACCAAGAAAGCAAGC GCUUGCUUUCUUGGUUGCC 5406 1971 494 AAAUAGUUGAAGGUUGUAC GUACAACCUUCAACUAUUU 5407 3083 495 GGAUAUGUAUGGGUAGGGU ACCCUACCCAUACAUAUCC 5408 2944 496 UAAUCUGAAUAAAGUGUAA UUACACUUUAUUCAGAUUA 5409 1894 497 UGCACAUCAGGAUACCCAG CUGGGUAUCCUGAUGUGCA 5410 1323 498 GUAAUAAGCCGGCUAUUGU ACAAUAGCCGGCUUAUUAC 5411 1202 499 AAGCUCAUCAUACUGGCUA UAGCCAGUAUGAUGAGCUU 5412 718 500 ACGUGCAAUCCCUGAACUG CAGUUCAGGGAUUGCACGU 5413 1744 501 AGUUGUGGUUAAGCUCUUA UAAGAGCUUAACCACAACU 5414 756 502 AGGACCAGGUGGUGGUUAA UUAACCACCACCUGGUCCU 5415 1317 503 GCUCUAGUAAUAAGCCGGC GCCGGCUUAUUACUAGAGC 5416 284 504 GAUUUGAUGGAGUUGGACA UGUCCAACUCCAUCAAAUC 5417 886 505 UGAUGUAGAAACAGCUCGU ACGAGCUGUUUCUACAUCA 5418 2430 506 CUGGUGGAUAUGGCCAGGA UCCUGGCCAUAUCCACCAG 5419 1207 507 CAUCAUACUGGCUAGUGGU ACCACUAGCCAGUAUGAUG 5420 592 508 GAUCCCAUCUACACAGUUU AAACUGUGUAGAUGGGAUC 5421 824 509 CACGCUAUCAUGCGUUCUC GAGAACGCAUGAUAGCGUG 5422 519 510 GACAGUAUGCAAUGACUCG CGAGUCAUUGCAUACUGUC 5423 3166 511 AAGUUGUUGUAACCUGCUG CAGCAGGUUACAACAACUU 5424 1151 512 GCUAUUACGACAGACUGCC GGCAGUCUGUCGUAAUAGC 5425 2566 513 GCCUCCAGGUGACAGCAAU AUUGCUGUCACCUGGAGGC 5426 453 514 UCCUGUAUGAGUGGGAACA UGUUCCCACUCAUACAGGA 5427 587 515 AUGCAGAUCCCAUCUACAC GUGUAGAUGGGAUCUGCAU 5428 930 516 UUUCCCAUCAUCGUGAGGG CCCUCACGAUGAUGGGAAA 5429 1585 517 CCAAGUGGGUGGUAUAGAG CUCUAUACCACCCACUUGG 5430 915 518 GGACCUUGCAUAACCUUUC GAAAGGUUAUGCAAGGUCC 5431 446 519 UCCCAAGUCCUGUAUGAGU ACUCAUACAGGACUUGGGA 5432 1869 520 CACGACUAGUUCAGUUGCU AGCAACUGAACUAGUCGUG 5433 1960 521 CCGCAUGGAAGAAAUAGUU AACUAUUUCUUCCAUGCGG 5434 1708 522 GGCCCAGAAUGCAGUUCGC GCGAACUGCAUUCUGGGCC 5435 306 523 CCAUGGAACCAGACAGAAA UUUCUGUCUGGUUCCAUGG 5436 2281 524 GAAACGGCUUUCAGUUGAG CUCAACUGAAAGCCGUUUC 5437 3082 525 GGGAUAUGUAUGGGUAGGG CCCUACCCAUACAUAUCCC 5438 1473 526 UUGGGACUCUUGUUCAGCU AGCUGAACAAGAGUCCCAA 5439 559 527 UAUGUUCCCUGAGACAUUA UAAUGUCUCAGGGAACAUA 5440 1416 528 GGACUCUCAGGAAUCUUUC GAAAGAUUCCUGAGAGUCC 5441 2145 529 AAGCUGCAGAAGCUAUUGA UCAAUAGCUUCUGCAGCUU 5442 1994 530 GCCCUUCACAUCCUAGCUC GAGCUAGGAUGUGAAGGGC 5443 1702 531 AGAGAUGGCCCAGAAUGCA UGCAUUCUGGGCCAUCUCU 5444 417 532 GCAAUCCUGAGGAAGAGGA UCCUCUUCCUCAGGAUUGC 5445 2444 533 CAGGAUGCCUUGGGUAUGG CCAUACCCAAGGCAUCCUG 5446 555 534 CUGCUAUGUUCCCUGAGAC GUCUCAGGGAACAUAGCAG 5447 2019 535 UUCACAACCGAAUUGUUAU AUAACAAUUCGGUUGUGAA 5448 1197 536 AAAGCAAGCUCAUCAUACU AGUAUGAUGAGCUUGCUUU 5449 415 537 AGGCAAUCCUGAGGAAGAG CUCUUCCUCAGGAUUGCCU 5450 2061 538 UGUUUGUGCAGCUGCUUUA UAAAGCAGCUGCACAAACA 5451 1352 539 GGAAUGCAAGCUUUAGGAC GUCCUAAAGCUUGCAUUCC 5452 1331 540 CCGGCUAUUGUAGAAGCUG CAGCUUCUACAAUAGCCGG 5453 1325 541 AAUAAGCCGGCUAUUGUAG CUACAAUAGCCGGCUUAUU 5454 1486 542 UCAGCUUCUGGGUUCAGAU AUCUGAACCCAGAAGCUGA 5455 454 543 CCUGUAUGAGUGGGAACAG CUGUUCCCACUCAUACAGG 5456 490 544 CACUCAAGAACAAGUAGCU AGCUACUUGUUCUUGAGUG 5457 1996 545 CCUUCACAUCCUAGCUCGG CCGAGCUAGGAUGUGAAGG 5458 1839 546 AUGCACCUUUGCGUGAGCA UGCUCACGCAAAGGUGCAU 5459 1888 547 UGUUCGUGCACAUCAGGAU AUCCUGAUGUGCACGAACA 5460 1879 548 UCAGUUGCUUGUUCGUGCA UGCACGAACAAGCAACUGA 5461 1829 549 CCCGCAAAUCAUGCACCUU AAGGUGCAUGAUUUGCGGG 5462 281 550 GCUGAUUUGAUGGAGUUGG CCAACUCCAUCAAAUCAGC 5463 1598 551 AUAGAGGCUCUUGUGCGUA UACGCACAAGAGCCUCUAU 5464 2135 552 CAGGACAAGGAAGCUGCAG CUGCAGCUUCCUUGUCCUG 5465 1755 553 AGCUCUUACACCCACCAUC GAUGGUGGGUGUAAGAGCU 5466 651 554 CAUCACAGAUGCUGAAACA UGUUUCAGCAUCUGUGAUG 5467 1335 555 CUAUUGUAGAAGCUGGUGG CCACCAGCUUCUACAAUAG 5468 2541 556 AUGCCCAGGACCUCAUGGA UCCAUGAGGUCCUGGGCAU 5469 531 557 UGACUCGAGCUCAGAGGGU ACCCUCUGAGCUCGAGUCA 5470 606 558 AGUUUGAUGCUGCUCAUCC GGAUGAGCAGCAUCAAACU 5471 1620 559 UCCUUCGGGCUGGUGACAG CUGUCACCAGCCCGAAGGA 5472 2211 560 AUGAAGGUGUGGCGACAUA UAUGUCGCCACACCUUCAU 5473 2293 561 AGUUGAGCUGACCAGCUCU AGAGCUGGUCAGCUCAACU 5474 455 562 CUGUAUGAGUGGGAACAGG CCUGUUCCCACUCAUACAG 5475 540 563 CUCAGAGGGUACGAGCUGC GCAGCUCGUACCCUCUGAG 5476 416 564 GGCAAUCCUGAGGAAGAGG CCUCUUCCUCAGGAUUGCC 5477 1210 565 CAUACUGGCUAGUGGUGGA UCCACCACUAGCCAGUAUG 5478 2262 566 ACAAGCCACAAGAUUACAA UUGUAAUCUUGUGGCUUGU 5479 1604 567 GCUCUUGUGCGUACUGUCC GGACAGUACGCACAAGAGC 5480 435 568 AUGUGGAUACCUCCCAAGU ACUUGGGAGGUAUCCACAU 5481 2060 569 UUGUUUGUGCAGCUGCUUU AAAGCAGCUGCACAAACAA 5482 2225 570 ACAUAUGCAGCUGCUGUUU AAACAGCAGCUGCAUAUGU 5483 481 571 UCAGUCCUUCACUCAAGAA UUCUUGAGUGAAGGACUGA 5484 917 572 ACCUUGCAUAACCUUUCCC GGGAAAGGUUAUGCAAGGU 5485 2221 573 GGCGACAUAUGCAGCUGCU AGCAGCUGCAUAUGUCGCC 5486 849 574 UGGUGUCUGCUAUUGUACG CGUACAAUAGCAGACACCA 5487 562 575 GUUCCCUGAGACAUUAGAU AUCUAAUGUCUCAGGGAAC 5488 1787 576 AUAAAGGCUACUGUUGGAU AUCCAACAGUAGCCUUUAU 5489 1860 577 GUGCCAUUCCACGACUAGU ACUAGUCGUGGAAUGGCAC 5490 1590 578 UGGGUGGUAUAGAGGCUCU AGAGCCUCUAUACCACCCA 5491 955 579 GGCCAUCUUUAAGUCUGGA UCCAGACUUAAAGAUGGCC 5492 2365 580 UAUUGGUGCCCAGGGAGAA UUCUCCCUGGGCACCAAUA 5493 534 581 CUCGAGCUCAGAGGGUACG CGUACCCUCUGAGCUCGAG 5494 706 582 AGAACUUGCCACACGUGCA UGCACGUGUGGCAAGUUCU 5495 1740 583 UACCAGUUGUGGUUAAGCU AGCUUAACCACAACUGGUA 5496 638 584 CGUUUGGCUGAACCAUCAC GUGAUGGUUCAGCCAAACG 5497 1334 585 GCUAUUGUAGAAGCUGGUG CACCAGCUUCUACAAUAGC 5498 971 586 GGAGGCAUUCCUGCCCUGG CCAGGGCAGGAAUGCCUCC 5499 2493 587 ACCACCCUGGUGCUGACUA UAGUCAGCACCAGGGUGGU 5500 1814 588 AAUCUUGCCCUUUGUCCCG CGGGACAAAGGGCAAGAUU 5501 1088 589 CGUUUAGCUGGUGGGCUGC GCAGCCCACCAGCUAAACG 5502 2292 590 CAGUUGAGCUGACCAGCUC GAGCUGGUCAGCUCAACUG 5503 1504 591 UGAUAUAAAUGUGGUCACC GGUGACCACAUUUAUAUCA 5504 404 592 CUGAGUGGUAAAGGCAAUC GAUUGCCUUUACCACUCAG 5505 1301 593 AAGGUGCUAUCUGUCUGCU AGCAGACAGAUAGCACCUU 5506 2004 594 UCCUAGCUCGGGAUGUUCA UGAACAUCCCGAGCUAGGA 5507 277 595 UCAAGCUGAUUUGAUGGAG CUCCAUCAAAUCAGCUUGA 5508 2304 596 CCAGCUCUCUCUUCAGAAC GUUCUGAAGAGAGAGCUGG 5509 300 597 ACAUGGCCAUGGAACCAGA UCUGGUUCCAUGGCCAUGU 5510 1906 598 UACCCAGCGCCGUACGUCC GGACGUACGGCGCUGGGUA 5511 1973 599 AUAGUUGAAGGUUGUACCG CGGUACAACCUUCAACUAU 5512 1360 600 AGCUUUAGGACUUCACCUG CAGGUGAAGUCCUAAAGCU 5513 2094 601 ACAUCCAAAGAGUAGCUGC GCAGCUACUCUUUGGAUGU 5514 920 602 UUGCAUAACCUUUCCCAUC GAUGGGAAAGGUUAUGCAA 5515 1707 603 UGGCCCAGAAUGCAGUUCG CGAACUGCAUUCUGGGCCA 5516 1808 604 AUUCGAAAUCUUGCCCUUU AAAGGGCAAGAUUUCGAAU 5517 1326 605 AUAAGCCGGCUAUUGUAGA UCUACAAUAGCCGGCUUAU 5518 1158 606 CGACAGACUGCCUUCAAAU AUUUGAAGGCAGUCUGUCG 5519 781 607 UGCAGUUAUGGUCCAUCAG CUGAUGGACCAUAACUGCA 5520 607 608 GUUUGAUGCUGCUCAUCCC GGGAUGAGCAGCAUCAAAC 5521 627 609 CUAAUGUCCAGCGUUUGGC GCCAAACGCUGGACAUUAG 5522 500 610 CAAGUAGCUGAUAUUGAUG CAUCAAUAUCAGCUACUUG 5523 2185 611 UCUGACAGAGUUACUUCAC GUGAAGUAACUCUGUCAGA 5524 1592 612 GGUGGUAUAGAGGCUCUUG CAAGAGCCUCUAUACCACC 5525 758 613 GACCAGGUGGUGGUUAAUA UAUUAACCACCACCUGGUC 5526 2551 614 CCUCAUGGAUGGGCUGCCU AGGCAGCCCAUCCAUGAGG 5527 1409 615 UGUCUUUGGACUCUCAGGA UCCUGAGAGUCCAAAGACA 5528 497 616 GAACAAGUAGCUGAUAUUG CAAUAUCAGCUACUUGUUC 5529 381 617 GUGCCACUACCACAGCUCC GGAGCUGUGGUAGUGGCAC 5530 1841 618 GCACCUUUGCGUGAGCAGG CCUGCUCACGCAAAGGUGC 5531 1368 619 GACUUCACCUGACAGAUCC GGAUCUGUCAGGUGAAGUC 5532 2047 620 AAAUACCAUUCCAUUGUUU AAACAAUGGAAUGGUAUUU 5533 492 621 CUCAAGAACAAGUAGCUGA UCAGCUACUUGUUCUUGAG 5534 2118 622 UCCUCUGUGAACUUGCUCA UGAGCAAGUUCACAGAGGA 5535 968 623 UCUGGAGGCAUUCCUGCCC GGGCAGGAAUGCCUCCAGA 5536 965 624 AAGUCUGGAGGCAUUCCUG CAGGAAUGCCUCCAGACUU 5537 1977 625 UUGAAGGUUGUACCGGAGC GCUCCGGUACAACCUUCAA 5538 2001 626 ACAUCCUAGCUCGGGAUGU ACAUCCCGAGCUAGGAUGU 5539 1191 627 ACCAAGAAAGCAAGCUCAU AUGAGCUUGCUUUCUUGGU 5540 640 628 UUUGGCUGAACCAUCACAG CUGUGAUGGUUCAGCCAAA 5541 715 629 CACACGUGCAAUCCCUGAA UUCAGGGAUUGCACGUGUG 5542 1204 630 GCUCAUCAUACUGGCUAGU ACUAGCCAGUAUGAUGAGC 5543 3093 631 GGGUAGGGUAAAUCAGUAA UUACUGAUUUACCCUACCC 5544 1371 632 UUCACCUGACAGAUCCAAG CUUGGAUCUGUCAGGUGAA 5545 409 633 UGGUAAAGGCAAUCCUGAG CUCAGGAUUGCCUUUACCA 5546 2405 634 GAUCCUAGCUAUCGUUCUU AAGAACGAUAGCUAGGAUC 5547 1671 635 UUCGUCAUCUGACCAGCCG CGGCUGGUCAGAUGACGAA 5548 1427 636 AAUCUUUCAGAUGCUGCAA UUGCAGCAUCUGAAAGAUU 5549 1717 637 UGCAGUUCGCCUUCACUAU AUAGUGAAGGCGAACUGCA 5550 2400 638 AGGAUGAUCCUAGCUAUCG CGAUAGCUAGGAUCAUCCU 5551 2305 639 CAGCUCUCUCUUCAGAACA UGUUCUGAAGAGAGAGCUG 5552 1928 640 GGUGGGACACAGCAGCAAU AUUGCUGCUGUGUCCCACC 5553 2399 641 CAGGAUGAUCCUAGCUAUC GAUAGCUAGGAUCAUCCUG 5554 426 642 AGGAAGAGGAUGUGGAUAC GUAUCCACAUCCUCUUCCU 5555 1309 643 AUCUGUCUGCUCUAGUAAU AUUACUAGAGCAGACAGAU 5556 925 644 UAACCUUUCCCAUCAUCGU ACGAUGAUGGGAAAGGUUA 5557 2072 645 CUGCUUUAUUCUCCCAUUG CAAUGGGAGAAUAAAGCAG 5558 2939 646 AAUUGUAAUCUGAAUAAAG CUUUAUUCAGAUUACAAUU 5559 1480 647 UCUUGUUCAGCUUCUGGGU ACCCAGAAGCUGAACAAGA 5560 1889 648 GUUCGUGCACAUCAGGAUA UAUCCUGAUGUGCACGAAC 5561 699 649 AUGAUGCAGAACUUGCCAC GUGGCAAGUUCUGCAUCAU 5562 506 650 GCUGAUAUUGAUGGACAGU ACUGUCCAUCAAUAUCAGC 5563 1750 651 GGUUAAGCUCUUACACCCA UGGGUGUAAGAGCUUAACC 5564 1820 652 GCCCUUUGUCCCGCAAAUC GAUUUGCGGGACAAAGGGC 5565 541 653 UCAGAGGGUACGAGCUGCU AGCAGCUCGUACCCUCUGA 5566 665 654 AAACAUGCAGUUGUAAACU AGUUUACAACUGCAUGUUU 5567 1817 655 CUUGCCCUUUGUCCCGCAA UUGCGGGACAAAGGGCAAG 5568 2275 656 UUACAAGAAACGGCUUUCA UGAAAGCCGUUUCUUGUAA 5569 2426 657 CACUCUGGUGGAUAUGGCC GGCCAUAUCCACCAGAGUG 5570 958 658 CAUCUUUAAGUCUGGAGGC GCCUCCAGACUUAAAGAUG 5571 1657 659 UGCCAUCUGUGCUCUUCGU ACGAAGAGCACAGAUGGCA 5572 1146 660 UCUUGGCUAUUACGACAGA UCUGUCGUAAUAGCCAAGA 5573 3078 661 AUUUGGGAUAUGUAUGGGU ACCCAUACAUAUCCCAAAU 5574 1008 662 CAGUGGAUUCUGUGUUGUU AACAACACAGAAUCCACUG 5575 1621 663 CCUUCGGGCUGGUGACAGG CCUGUCACCAGCCCGAAGG 5576 1932 664 GGACACAGCAGCAAUUUGU ACAAAUUGCUGCUGUGUCC 5577 1909 665 CCAGCGCCGUACGUCCAUG CAUGGACGUACGGCGCUGG 5578 2279 666 AAGAAACGGCUUUCAGUUG CAACUGAAAGCCGUUUCUU 5579 574 667 AUUAGAUGAGGGCAUGCAG CUGCAUGCCCUCAUCUAAU 5580 2303 668 ACCAGCUCUCUCUUCAGAA UUCUGAAGAGAGAGCUGGU 5581 784 669 AGUUAUGGUCCAUCAGCUU AAGCUGAUGGACCAUAACU 5582 2507 670 GACUAUCCAGUUGAUGGGC GCCCAUCAACUGGAUAGUC 5583 995 671 AUGCUUGGUUCACCAGUGG CCACUGGUGAACCAAGCAU 5584 2006 672 CUAGCUCGGGAUGUUCACA UGUGAACAUCCCGAGCUAG 5585 1757 673 CUCUUACACCCACCAUCCC GGGAUGGUGGGUGUAAGAG 5586 2129 674 CUUGCUCAGGACAAGGAAG CUUCCUUGUCCUGAGCAAG 5587 2272 675 AGAUUACAAGAAACGGCUU AAGCCGUUUCUUGUAAUCU 5588 389 676 ACCACAGCUCCUUCUCUGA UCAGAGAAGGAGCUGUGGU 5589 1435 677 AGAUGCUGCAACUAAACAG CUGUUUAGUUGCAGCAUCU 5590 1752 678 UUAAGCUCUUACACCCACC GGUGGGUGUAAGAGCUUAA 5591 773 679 AAUAAGGCUGCAGUUAUGG CCAUAACUGCAGCCUUAUU 5592 3080 680 UUGGGAUAUGUAUGGGUAG CUACCCAUACAUAUCCCAA 5593 3174 681 GUAACCUGCUGUGAUACGA UCGUAUCACAGCAGGUUAC 5594 1578 682 UGGUCUGCCAAGUGGGUGG CCACCCACUUGGCAGACCA 5595 398 683 CCUUCUCUGAGUGGUAAAG CUUUACCACUCAGAGAAGG 5596 2153 684 GAAGCUAUUGAAGCUGAGG CCUCAGCUUCAAUAGCUUC 5597 702 685 AUGCAGAACUUGCCACACG CGUGUGGCAAGUUCUGCAU 5598 503 686 GUAGCUGAUAUUGAUGGAC GUCCAUCAAUAUCAGCUAC 5599 276 687 CUCAAGCUGAUUUGAUGGA UCCAUCAAAUCAGCUUGAG 5600 1962 688 GCAUGGAAGAAAUAGUUGA UCAACUAUUUCUUCCAUGC 5601 1347 689 CUGGUGGAAUGCAAGCUUU AAAGCUUGCAUUCCACCAG 5602 2544 690 CCCAGGACCUCAUGGAUGG CCAUCCAUGAGGUCCUGGG 5603 3079 691 UUUGGGAUAUGUAUGGGUA UACCCAUACAUAUCCCAAA 5604 3164 692 CAAAGUUGUUGUAACCUGC GCAGGUUACAACAACUUUG 5605 2026 693 CCGAAUUGUUAUCAGAGGA UCCUCUGAUAACAAUUCGG 5606 2938 694 UAAUUGUAAUCUGAAUAAA UUUAUUCAGAUUACAAUUA 5607 2940 695 AUUGUAAUCUGAAUAAAGU ACUUUAUUCAGAUUACAAU 5608 2027 696 CGAAUUGUUAUCAGAGGAC GUCCUCUGAUAACAAUUCG 5609 448 697 CCAAGUCCUGUAUGAGUGG CCACUCAUACAGGACUUGG 5610 1328 698 AAGCCGGCUAUUGUAGAAG CUUCUACAAUAGCCGGCUU 5611 2406 699 AUCCUAGCUAUCGUUCUUU AAAGAACGAUAGCUAGGAU 5612 924 700 AUAACCUUUCCCAUCAUCG CGAUGAUGGGAAAGGUUAU 5613 1584 701 GCCAAGUGGGUGGUAUAGA UCUAUACCACCCACUUGGC 5614 1871 702 CGACUAGUUCAGUUGCUUG CAAGCAACUGAACUAGUCG 5615 999 703 UUGGUUCACCAGUGGAUUC GAAUCCACUGGUGAACCAA 5616 1400 704 GUUCAGAACUGUCUUUGGA UCCAAAGACAGUUCUGAAC 5617 3180 705 UGCUGUGAUACGAUGCUUC GAAGCAUCGUAUCACAGCA 5618 2569 706 UCCAGGUGACAGCAAUCAG CUGAUUGCUGUCACCUGGA 5619 787 707 UAUGGUCCAUCAGCUUUCU AGAAAGCUGAUGGACCAUA 5620 1861 708 UGCCAUUCCACGACUAGUU AACUAGUCGUGGAAUGGCA 5621 1190 709 AACCAAGAAAGCAAGCUCA UGAGCUUGCUUUCUUGGUU 5622 1557 710 AUAAUUAUAAGAACAAGAU AUCUUGUUCUUAUAAUUAU 5623 1751 711 GUUAAGCUCUUACACCCAC GUGGGUGUAAGAGCUUAAC 5624 2897 712 UUGAGUAAUGGUGUAGAAC GUUCUACACCAUUACUCAA 5625 2217 713 GUGUGGCGACAUAUGCAGC GCUGCAUAUGUCGCCACAC 5626 2302 714 GACCAGCUCUCUCUUCAGA UCUGAAGAGAGAGCUGGUC 5627 1984 715 UUGUACCGGAGCCCUUCAC GUGAAGGGCUCCGGUACAA 5628 302 716 AUGGCCAUGGAACCAGACA UGUCUGGUUCCAUGGCCAU 5629 2431 717 UGGUGGAUAUGGCCAGGAU AUCCUGGCCAUAUCCACCA 5630 2183 718 CCUCUGACAGAGUUACUUC GAAGUAACUCUGUCAGAGG 5631 2403 719 AUGAUCCUAGCUAUCGUUC GAACGAUAGCUAGGAUCAU 5632 788 720 AUGGUCCAUCAGCUUUCUA UAGAAAGCUGAUGGACCAU 5633 1476 721 GGACUCUUGUUCAGCUUCU AGAAGCUGAACAAGAGUCC 5634 827 722 GCUAUCAUGCGUUCUCCUC GAGGAGAACGCAUGAUAGC 5635 2299 723 GCUGACCAGCUCUCUCUUC GAAGAGAGAGCUGGUCAGC 5636 1891 724 UCGUGCACAUCAGGAUACC GGUAUCCUGAUGUGCACGA 5637 2196 725 UACUUCACUCUAGGAAUGA UCAUUCCUAGAGUGAAGUA 5638 663 726 UGAAACAUGCAGUUGUAAA UUUACAACUGCAUGUUUCA 5639 1028 727 UAUGCCAUUACAACUCUCC GGAGAGUUGUAAUGGCAUA 5640 2032 728 UGUUAUCAGAGGACUAAAU AUUUAGUCCUCUGAUAACA 5641 1459 729 GAUGGAAGGUCUCCUUGGG CCCAAGGAGACCUUCCAUC 5642 2095 730 CAUCCAAAGAGUAGCUGCA UGCAGCUACUCUUUGGAUG 5643 1686 731 GCCGACACCAAGAAGCAGA UCUGCUUCUUGGUGUCGGC 5644 1412 732 CUUUGGACUCUCAGGAAUC GAUUCCUGAGAGUCCAAAG 5645 2473 733 GGAACAUGAGAUGGGUGGC GCCACCCAUCUCAUGUUCC 5646 1080 734 UGGCAGUGCGUUUAGCUGG CCAGCUAAACGCACUGCCA 5647 2143 735 GGAAGCUGCAGAAGCUAUU AAUAGCUUCUGCAGCUUCC 5648 2203 736 CUCUAGGAAUGAAGGUGUG CACACCUUCAUUCCUAGAG 5649 548 737 GUACGAGCUGCUAUGUUCC GGAACAUAGCAGCUCGUAC 5650 1867 738 UCCACGACUAGUUCAGUUG CAACUGAACUAGUCGUGGA 5651 842 739 CCUCAGAUGGUGUCUGCUA UAGCAGACACCAUCUGAGG 5652 2120 740 CUCUGUGAACUUGCUCAGG CCUGAGCAAGUUCACAGAG 5653 782 741 GCAGUUAUGGUCCAUCAGC GCUGAUGGACCAUAACUGC 5654 1758 742 UCUUACACCCACCAUCCCA UGGGAUGGUGGGUGUAAGA 5655 2396 743 CGCCAGGAUGAUCCUAGCU AGCUAGGAUCAUCCUGGCG 5656 1373 744 CACCUGACAGAUCCAAGUC GACUUGGAUCUGUCAGGUG 5657 1518 745 UCACCUGUGCAGCUGGAAU AUUCCAGCUGCACAGGUGA 5658 2557 746 GGAUGGGCUGCCUCCAGGU ACCUGGAGGCAGCCCAUCC 5659 1987 747 UACCGGAGCCCUUCACAUC GAUGUGAAGGGCUCCGGUA 5660 568 748 UGAGACAUUAGAUGAGGGC GCCCUCAUCUAAUGUCUCA 5661 2201 749 CACUCUAGGAAUGAAGGUG CACCUUCAUUCCUAGAGUG 5662 609 750 UUGAUGCUGCUCAUCCCAC GUGGGAUGAGCAGCAUCAA 5663 400 751 UUCUCUGAGUGGUAAAGGC GCCUUUACCACUCAGAGAA 5664 331 752 UGUUAGUCACUGGCAGCAA UUGCUGCCAGUGACUAACA 5665 1967 753 GAAGAAAUAGUUGAAGGUU AACCUUCAACUAUUUCUUC 5666 2198 754 CUUCACUCUAGGAAUGAAG CUUCAUUCCUAGAGUGAAG 5667 1493 755 CUGGGUUCAGAUGAUAUAA UUAUAUCAUCUGAACCCAG 5668 2260 756 GGACAAGCCACAAGAUUAC GUAAUCUUGUGGCUUGUCC 5669 2496 757 ACCCUGGUGCUGACUAUCC GGAUAGUCAGCACCAGGGU 5670 2361 758 UUGAUAUUGGUGCCCAGGG CCCUGGGCACCAAUAUCAA 5671 443 759 ACCUCCCAAGUCCUGUAUG CAUACAGGACUUGGGAGGU 5672 523 760 GUAUGCAAUGACUCGAGCU AGCUCGAGUCAUUGCAUAC 5673 1742 761 CCAGUUGUGGUUAAGCUCU AGAGCUUAACCACAACUGG 5674 530 762 AUGACUCGAGCUCAGAGGG CCCUCUGAGCUCGAGUCAU 5675 3169 763 UUGUUGUAACCUGCUGUGA UCACAGCAGGUUACAACAA 5676 1385 764 CCAAGUCAACGUCUUGUUC GAACAAGACGUUGACUUGG 5677 2036 765 AUCAGAGGACUAAAUACCA UGGUAUUUAGUCCUCUGAU 5678 3088 766 UGUAUGGGUAGGGUAAAUC GAUUUACCCUACCCAUACA 5679 1850 767 CGUGAGCAGGGUGCCAUUC GAAUGGCACCCUGCUCACG 5680 2518 768 UGAUGGGCUGCCAGAUCUG CAGAUCUGGCAGCCCAUCA 5681 1886 769 CUUGUUCGUGCACAUCAGG CCUGAUGUGCACGAACAAG 5682 650 770 CCAUCACAGAUGCUGAAAC GUUUCAGCAUCUGUGAUGG 5683 3139 771 ACAGUUUACCAGUUGCCUU AAGGCAACUGGUAAACUGU 5684 2025 772 ACCGAAUUGUUAUCAGAGG CCUCUGAUAACAAUUCGGU 5685 1082 773 GCAGUGCGUUUAGCUGGUG CACCAGCUAAACGCACUGC 5686 2475 774 AACAUGAGAUGGGUGGCCA UGGCCACCCAUCUCAUGUU 5687 1375 775 CCUGACAGAUCCAAGUCAA UUGACUUGGAUCUGUCAGG 5688 2013 776 GGGAUGUUCACAACCGAAU AUUCGGUUGUGAACAUCCC 5689 1802 777 GGAUUGAUUCGAAAUCUUG CAAGAUUUCGAAUCAAUCC 5690 2144 778 GAAGCUGCAGAAGCUAUUG CAAUAGCUUCUGCAGCUUC 5691 529 779 AAUGACUCGAGCUCAGAGG CCUCUGAGCUCGAGUCAUU 5692 1482 780 UUGUUCAGCUUCUGGGUUC GAACCCAGAAGCUGAACAA 5693 1546 781 CCUCACUUGCAAUAAUUAU AUAAUUAUUGCAAGUGAGG 5694 845 782 CAGAUGGUGUCUGCUAUUG CAAUAGCAGACACCAUCUG 5695 487 783 CUUCACUCAAGAACAAGUA UACUUGUUCUUGAGUGAAG 5696 652 784 AUCACAGAUGCUGAAACAU AUGUUUCAGCAUCUGUGAU 5697 1720 785 AGUUCGCCUUCACUAUGGA UCCAUAGUGAAGGCGAACU 5698 951 786 UACUGGCCAUCUUUAAGUC GACUUAAAGAUGGCCAGUA 5699 1232 787 CAAGCUUUAGUAAAUAUAA UUAUAUUUACUAAAGCUUG 5700 2265 788 AGCCACAAGAUUACAAGAA UUCUUGUAAUCUUGUGGCU 5701 1698 789 AAGCAGAGAUGGCCCAGAA UUCUGGGCCAUCUCUGCUU 5702 701 790 GAUGCAGAACUUGCCACAC GUGUGGCAAGUUCUGCAUC 5703 1428 791 AUCUUUCAGAUGCUGCAAC GUUGCAGCAUCUGAAAGAU 5704 1930 792 UGGGACACAGCAGCAAUUU AAAUUGCUGCUGUGUCCCA 5705 1379 793 ACAGAUCCAAGUCAACGUC GACGUUGACUUGGAUCUGU 5706 1936 794 ACAGCAGCAAUUUGUGGAG CUCCACAAAUUGCUGCUGU 5707 1441 795 UGCAACUAAACAGGAAGGG CCCUUCCUGUUUAGUUGCA 5708 2132 796 GCUCAGGACAAGGAAGCUG CAGCUUCCUUGUCCUGAGC 5709 2043 797 GACUAAAUACCAUUCCAUU AAUGGAAUGGUAUUUAGUC 5710 608 798 UUUGAUGCUGCUCAUCCCA UGGGAUGAGCAGCAUCAAA 5711 341 799 UGGCAGCAACAGUCUUACC GGUAAGACUGUUGCUGCCA 5712 1194 800 AAGAAAGCAAGCUCAUCAU AUGAUGAGCUUGCUUUCUU 5713 2350 801 UGAUCUUGGACUUGAUAUU AAUAUCAAGUCCAAGAUCA 5714 2948 802 CUGAAUAAAGUGUAACAAU AUUGUUACACUUUAUUCAG 5715 2044 803 ACUAAAUACCAUUCCAUUG CAAUGGAAUGGUAUUUAGU 5716 621 804 AUCCCACUAAUGUCCAGCG CGCUGGACAUUAGUGGGAU 5717 384 805 CCACUACCACAGCUCCUUC GAAGGAGCUGUGGUAGUGG 5718 1898 806 CAUCAGGAUACCCAGCGCC GGCGCUGGGUAUCCUGAUG 5719 653 807 UCACAGAUGCUGAAACAUG CAUGUUUCAGCAUCUGUGA 5720 1846 808 UUUGCGUGAGCAGGGUGCC GGCACCCUGCUCACGCAAA 5721 2348 809 GCUGAUCUUGGACUUGAUA UAUCAAGUCCAAGAUCAGC 5722 1150 810 GGCUAUUACGACAGACUGC GCAGUCUGUCGUAAUAGCC 5723 298 811 GGACAUGGCCAUGGAACCA UGGUUCCAUGGCCAUGUCC 5724 1568 812 AACAAGAUGAUGGUCUGCC GGCAGACCAUCAUCUUGUU 5725 1058 813 UUACAUCAAGAAGGAGCUA UAGCUCCUUCUUGAUGUAA 5726 1835 814 AAUCAUGCACCUUUGCGUG CACGCAAAGGUGCAUGAUU 5727 1832 815 GCAAAUCAUGCACCUUUGC GCAAAGGUGCAUGAUUUGC 5728 406 816 GAGUGGUAAAGGCAAUCCU AGGAUUGCCUUUACCACUC 5729 1723 817 UCGCCUUCACUAUGGACUA UAGUCCAUAGUGAAGGCGA 5730 371 818 AUCCAUUCUGGUGCCACUA UAGUGGCACCAGAAUGGAU 5731 1899 819 AUCAGGAUACCCAGCGCCG CGGCGCUGGGUAUCCUGAU 5732 522 820 AGUAUGCAAUGACUCGAGC GCUCGAGUCAUUGCAUACU 5733 2285 821 CGGCUUUCAGUUGAGCUGA UCAGCUCAACUGAAAGCCG 5734 779 822 GCUGCAGUUAUGGUCCAUC GAUGGACCAUAACUGCAGC 5735 2896 823 AUUGAGUAAUGGUGUAGAA UUCUACACCAUUACUCAAU 5736 2943 824 GUAAUCUGAAUAAAGUGUA UACACUUUAUUCAGAUUAC 5737 513 825 UUGAUGGACAGUAUGCAAU AUUGCAUACUGUCCAUCAA 5738 3084 826 GAUAUGUAUGGGUAGGGUA UACCCUACCCAUACAUAUC 5739 1567 827 GAACAAGAUGAUGGUCUGC GCAGACCAUCAUCUUGUUC 5740 2034 828 UUAUCAGAGGACUAAAUAC GUAUUUAGUCCUCUGAUAA 5741 1003 829 UUCACCAGUGGAUUCUGUG CACAGAAUCCACUGGUGAA 5742 1980 830 AAGGUUGUACCGGAGCCCU AGGGCUCCGGUACAACCUU 5743 1340 831 GUAGAAGCUGGUGGAAUGC GCAUUCCACCAGCUUCUAC 5744 1437 832 AUGCUGCAACUAAACAGGA UCCUGUUUAGUUGCAGCAU 5745 2425 833 UCACUCUGGUGGAUAUGGC GCCAUAUCCACCAGAGUGA 5746 282 834 CUGAUUUGAUGGAGUUGGA UCCAACUCCAUCAAAUCAG 5747 1206 835 UCAUCAUACUGGCUAGUGG CCACUAGCCAGUAUGAUGA 5748 1885 836 GCUUGUUCGUGCACAUCAG CUGAUGUGCACGAACAAGC 5749 1314 837 UCUGCUCUAGUAAUAAGCC GGCUUAUUACUAGAGCAGA 5750 1308 838 UAUCUGUCUGCUCUAGUAA UUACUAGAGCAGACAGAUA 5751 1200 839 GCAAGCUCAUCAUACUGGC GCCAGUAUGAUGAGCUUGC 5752 543 840 AGAGGGUACGAGCUGCUAU AUAGCAGCUCGUACCCUCU 5753 1609 841 UGUGCGUACUGUCCUUCGG CCGAAGGACAGUACGCACA 5754 1453 842 GGAAGGGAUGGAAGGUCUC GAGACCUUCCAUCCCUUCC 5755 833 843 AUGCGUUCUCCUCAGAUGG CCAUCUGAGGAGAACGCAU 5756 2188 844 GACAGAGUUACUUCACUCU AGAGUGAAGUAACUCUGUC 5757 1148 845 UUGGCUAUUACGACAGACU AGUCUGUCGUAAUAGCCAA 5758 1736 846 GGACUACCAGUUGUGGUUA UAACCACAACUGGUAGUCC 5759 1401 847 UUCAGAACUGUCUUUGGAC GUCCAAAGACAGUUCUGAA 5760 1677 848 AUCUGACCAGCCGACACCA UGGUGUCGGCUGGUCAGAU 5761 1934 849 ACACAGCAGCAAUUUGUGG CCACAAAUUGCUGCUGUGU 5762 388 850 UACCACAGCUCCUUCUCUG CAGAGAAGGAGCUGUGGUA 5763 1920 851 CGUCCAUGGGUGGGACACA UGUGUCCCACCCAUGGACG 5764 1747 852 UGUGGUUAAGCUCUUACAC GUGUAAGAGCUUAACCACA 5765 861 853 UUGUACGUACCAUGCAGAA UUCUGCAUGGUACGUACAA 5766 1904 854 GAUACCCAGCGCCGUACGU ACGUACGGCGCUGGGUAUC 5767 831 855 UCAUGCGUUCUCCUCAGAU AUCUGAGGAGAACGCAUGA 5768 1895 856 GCACAUCAGGAUACCCAGC GCUGGGUAUCCUGAUGUGC 5769 2273 857 GAUUACAAGAAACGGCUUU AAAGCCGUUUCUUGUAAUC 5770 1738 858 ACUACCAGUUGUGGUUAAG CUUAACCACAACUGGUAGU 5771 1395 859 GUCUUGUUCAGAACUGUCU AGACAGUUCUGAACAAGAC 5772 1675 860 UCAUCUGACCAGCCGACAC GUGUCGGCUGGUCAGAUGA 5773 1845 861 CUUUGCGUGAGCAGGGUGC GCACCCUGCUCACGCAAAG 5774 1408 862 CUGUCUUUGGACUCUCAGG CCUGAGAGUCCAAAGACAG 5775 1059 863 UACAUCAAGAAGGAGCUAA UUAGCUCCUUCUUGAUGUA 5776 1381 864 AGAUCCAAGUCAACGUCUU AAGACGUUGACUUGGAUCU 5777 1386 865 CAAGUCAACGUCUUGUUCA UGAACAAGACGUUGACUUG 5778 1470 866 UCCUUGGGACUCUUGUUCA UGAACAAGAGUCCCAAGGA 5779 1349 867 GGUGGAAUGCAAGCUUUAG CUAAAGCUUGCAUUCCACC 5780 1440 868 CUGCAACUAAACAGGAAGG CCUUCCUGUUUAGUUGCAG 5781 1364 869 UUAGGACUUCACCUGACAG CUGUCAGGUGAAGUCCUAA 5782 502 870 AGUAGCUGAUAUUGAUGGA UCCAUCAAUAUCAGCUACU 5783 1246 871 UAUAAUGAGGACCUAUACU AGUAUAGGUCCUCAUUAUA 5784 3178 872 CCUGCUGUGAUACGAUGCU AGCAUCGUAUCACAGCAGG 5785 2483 873 AUGGGUGGCCACCACCCUG CAGGGUGGUGGCCACCCAU 5786 1417 874 GACUCUCAGGAAUCUUUCA UGAAAGAUUCCUGAGAGUC 5787 1893 875 GUGCACAUCAGGAUACCCA UGGGUAUCCUGAUGUGCAC 5788 817 876 UUCCAGACACGCUAUCAUG CAUGAUAGCGUGUCUGGAA 5789 711 877 UUGCCACACGUGCAAUCCC GGGAUUGCACGUGUGGCAA 5790 1433 878 UCAGAUGCUGCAACUAAAC GUUUAGUUGCAGCAUCUGA 5791 1362 879 CUUUAGGACUUCACCUGAC GUCAGGUGAAGUCCUAAAG 5792 1838 880 CAUGCACCUUUGCGUGAGC GCUCACGCAAAGGUGCAUG 5793 1037 881 ACAACUCUCCACAACCUUU AAAGGUUGUGGAGAGUUGU 5794 1474 882 UGGGACUCUUGUUCAGCUU AAGCUGAACAAGAGUCCCA 5795 997 883 GCUUGGUUCACCAGUGGAU AUCCACUGGUGAACCAAGC 5796 931 884 UUCCCAUCAUCGUGAGGGC GCCCUCACGAUGAUGGGAA 5797 1313 885 GUCUGCUCUAGUAAUAAGC GCUUAUUACUAGAGCAGAC 5798 1487 886 CAGCUUCUGGGUUCAGAUG CAUCUGAACCCAGAAGCUG 5799 1673 887 CGUCAUCUGACCAGCCGAC GUCGGCUGGUCAGAUGACG 5800 561 888 UGUUCCCUGAGACAUUAGA UCUAAUGUCUCAGGGAACA 5801 1188 889 GCAACCAAGAAAGCAAGCU AGCUUGCUUUCUUGGUUGC 5802 292 890 GGAGUUGGACAUGGCCAUG CAUGGCCAUGUCCAACUCC 5803 1958 891 GUCCGCAUGGAAGAAAUAG CUAUUUCUUCCAUGCGGAC 5804 2349 892 CUGAUCUUGGACUUGAUAU AUAUCAAGUCCAAGAUCAG 5805 1460 893 AUGGAAGGUCUCCUUGGGA UCCCAAGGAGACCUUCCAU 5806 1576 894 GAUGGUCUGCCAAGUGGGU ACCCACUUGGCAGACCAUC 5807 690 895 ACUAUCAAGAUGAUGCAGA UCUGCAUCAUCUUGAUAGU 5808 655 896 ACAGAUGCUGAAACAUGCA UGCAUGUUUCAGCAUCUGU 5809 2290 897 UUCAGUUGAGCUGACCAGC GCUGGUCAGCUCAACUGAA 5810 1600 898 AGAGGCUCUUGUGCGUACU AGUACGCACAAGAGCCUCU 5811 2432 899 GGUGGAUAUGGCCAGGAUG CAUCCUGGCCAUAUCCACC 5812 710 900 CUUGCCACACGUGCAAUCC GGAUUGCACGUGUGGCAAG 5813 1714 901 GAAUGCAGUUCGCCUUCAC GUGAAGGCGAACUGCAUUC 5814 2005 902 CCUAGCUCGGGAUGUUCAC GUGAACAUCCCGAGCUAGG 5815 1728 903 UUCACUAUGGACUACCAGU ACUGGUAGUCCAUAGUGAA 5816 2482 904 GAUGGGUGGCCACCACCCU AGGGUGGUGGCCACCCAUC 5817 768 905 UGGUUAAUAAGGCUGCAGU ACUGCAGCCUUAUUAACCA 5818 693 906 AUCAAGAUGAUGCAGAACU AGUUCUGCAUCAUCUUGAU 5819 3179 907 CUGCUGUGAUACGAUGCUU AAGCAUCGUAUCACAGCAG 5820 2448 908 AUGCCUUGGGUAUGGACCC GGGUCCAUACCCAAGGCAU 5821 3183 909 UGUGAUACGAUGCUUCAAG CUUGAAGCAUCGUAUCACA 5822 1293 910 GAGUGCUGAAGGUGCUAUC GAUAGCACCUUCAGCACUC 5823 544 911 GAGGGUACGAGCUGCUAUG CAUAGCAGCUCGUACCCUC 5824 2937 912 UUAAUUGUAAUCUGAAUAA UUAUUCAGAUUACAAUUAA 5825 1691 913 CACCAAGAAGCAGAGAUGG CCAUCUCUGCUUCUUGGUG 5826 1353 914 GAAUGCAAGCUUUAGGACU AGUCCUAAAGCUUGCAUUC 5827 1843 915 ACCUUUGCGUGAGCAGGGU ACCCUGCUCACGCAAAGGU 5828 1302 916 AGGUGCUAUCUGUCUGCUC GAGCAGACAGAUAGCACCU 5829 2130 917 UUGCUCAGGACAAGGAAGC GCUUCCUUGUCCUGAGCAA 5830 2165 918 GCUGAGGGAGCCACAGCUC GAGCUGUGGCUCCCUCAGC 5831 387 919 CUACCACAGCUCCUUCUCU AGAGAAGGAGCUGUGGUAG 5832 2472 920 UGGAACAUGAGAUGGGUGG CCACCCAUCUCAUGUUCCA 5833 857 921 GCUAUUGUACGUACCAUGC GCAUGGUACGUACAAUAGC 5834 1816 922 UCUUGCCCUUUGUCCCGCA UGCGGGACAAAGGGCAAGA 5835 1561 923 UUAUAAGAACAAGAUGAUG CAUCAUCUUGUUCUUAUAA 5836 811 924 GGAAGCUUCCAGACACGCU AGCGUGUCUGGAAGCUUCC 5837 1327 925 UAAGCCGGCUAUUGUAGAA UUCUACAAUAGCCGGCUUA 5838 757 926 GGACCAGGUGGUGGUUAAU AUUAACCACCACCUGGUCC 5839 507 927 CUGAUAUUGAUGGACAGUA UACUGUCCAUCAAUAUCAG 5840 3092 928 UGGGUAGGGUAAAUCAGUA UACUGAUUUACCCUACCCA 5841 2359 929 ACUUGAUAUUGGUGCCCAG CUGGGCACCAAUAUCAAGU 5842 1753 930 UAAGCUCUUACACCCACCA UGGUGGGUGUAAGAGCUUA 5843 273 931 CUACUCAAGCUGAUUUGAU AUCAAAUCAGCUUGAGUAG 5844 1859 932 GGUGCCAUUCCACGACUAG CUAGUCGUGGAAUGGCACC 5845 296 933 UUGGACAUGGCCAUGGAAC GUUCCAUGGCCAUGUCCAA 5846 615 934 CUGCUCAUCCCACUAAUGU ACAUUAGUGGGAUGAGCAG 5847 301 935 CAUGGCCAUGGAACCAGAC GUCUGGUUCCAUGGCCAUG 5848 1184 936 UAUGGCAACCAAGAAAGCA UGCUUUCUUGGUUGCCAUA 5849 1006 937 ACCAGUGGAUUCUGUGUUG CAACACAGAAUCCACUGGU 5850 2189 938 ACAGAGUUACUUCACUCUA UAGAGUGAAGUAACUCUGU 5851 1365 939 UAGGACUUCACCUGACAGA UCUGUCAGGUGAAGUCCUA 5852 2442 940 GCCAGGAUGCCUUGGGUAU AUACCCAAGGCAUCCUGGC 5853 1249 941 AAUGAGGACCUAUACUUAC GUAAGUAUAGGUCCUCAUU 5854 1144 942 AUUCUUGGCUAUUACGACA UGUCGUAAUAGCCAAGAAU 5855 2075 943 CUUUAUUCUCCCAUUGAAA UUUCAAUGGGAGAAUAAAG 5856 504 944 UAGCUGAUAUUGAUGGACA UGUCCAUCAAUAUCAGCUA 5857 1405 945 GAACUGUCUUUGGACUCUC GAGAGUCCAAAGACAGUUC 5858 333 946 UUAGUCACUGGCAGCAACA UGUUGCUGCCAGUGACUAA 5859 1032 947 CCAUUACAACUCUCCACAA UUGUGGAGAGUUGUAAUGG 5860 1748 948 GUGGUUAAGCUCUUACACC GGUGUAAGAGCUUAACCAC 5861 283 949 UGAUUUGAUGGAGUUGGAC GUCCAACUCCAUCAAAUCA 5862 1700 950 GCAGAGAUGGCCCAGAAUG CAUUCUGGGCCAUCUCUGC 5863 1445 951 ACUAAACAGGAAGGGAUGG CCAUCCCUUCCUGUUUAGU 5864 1133 952 ACAAAUGUUAAAUUCUUGG CCAAGAAUUUAACAUUUGU 5865 527 953 GCAAUGACUCGAGCUCAGA UCUGAGCUCGAGUCAUUGC 5866 2010 954 CUCGGGAUGUUCACAACCG CGGUUGUGAACAUCCCGAG 5867 851 955 GUGUCUGCUAUUGUACGUA UACGUACAAUAGCAGACAC 5868 436 956 UGUGGAUACCUCCCAAGUC GACUUGGGAGGUAUCCACA 5869 2446 957 GGAUGCCUUGGGUAUGGAC GUCCAUACCCAAGGCAUCC 5870 1142 958 AAAUUCUUGGCUAUUACGA UCGUAAUAGCCAAGAAUUU 5871 549 959 UACGAGCUGCUAUGUUCCC GGGAACAUAGCAGCUCGUA 5872 1083 960 CAGUGCGUUUAGCUGGUGG CCACCAGCUAAACGCACUG 5873 695 961 CAAGAUGAUGCAGAACUUG CAAGUUCUGCAUCAUCUUG 5874 885 962 AUGAUGUAGAAACAGCUCG CGAGCUGUUUCUACAUCAU 5875 2067 963 UGCAGCUGCUUUAUUCUCC GGAGAAUAAAGCAGCUGCA 5876 390 964 CCACAGCUCCUUCUCUGAG CUCAGAGAAGGAGCUGUGG 5877 1719 965 CAGUUCGCCUUCACUAUGG CCAUAGUGAAGGCGAACUG 5878 813 966 AAGCUUCCAGACACGCUAU AUAGCGUGUCUGGAAGCUU 5879 2289 967 UUUCAGUUGAGCUGACCAG CUGGUCAGCUCAACUGAAA 5880 377 968 UCUGGUGCCACUACCACAG CUGUGGUAGUGGCACCAGA 5881 826 969 CGCUAUCAUGCGUUCUCCU AGGAGAACGCAUGAUAGCG 5882 1634 970 GACAGGGAAGACAUCACUG CAGUGAUGUCUUCCCUGUC 5883 1208 971 AUCAUACUGGCUAGUGGUG CACCACUAGCCAGUAUGAU 5884 1628 972 GCUGGUGACAGGGAAGACA UGUCUUCCCUGUCACCAGC 5885 2003 973 AUCCUAGCUCGGGAUGUUC GAACAUCCCGAGCUAGGAU 5886 452 974 GUCCUGUAUGAGUGGGAAC GUUCCCACUCAUACAGGAC 5887 3081 975 UGGGAUAUGUAUGGGUAGG CCUACCCAUACAUAUCCCA 5888 2354 976 CUUGGACUUGAUAUUGGUG CACCAAUAUCAAGUCCAAG 5889 1822 977 CCUUUGUCCCGCAAAUCAU AUGAUUUGCGGGACAAAGG 5890 1299 978 UGAAGGUGCUAUCUGUCUG CAGACAGAUAGCACCUUCA 5891 486 979 CCUUCACUCAAGAACAAGU ACUUGUUCUUGAGUGAAGG 5892 1463 980 GAAGGUCUCCUUGGGACUC GAGUCCCAAGGAGACCUUC 5893 2280 981 AGAAACGGCUUUCAGUUGA UCAACUGAAAGCCGUUUCU 5894 1907 982 ACCCAGCGCCGUACGUCCA UGGACGUACGGCGCUGGGU 5895 923 983 CAUAACCUUUCCCAUCAUC GAUGAUGGGAAAGGUUAUG 5896 1979 984 GAAGGUUGUACCGGAGCCC GGGCUCCGGUACAACCUUC 5897 1827 985 GUCCCGCAAAUCAUGCACC GGUGCAUGAUUUGCGGGAC 5898 1201 986 CAAGCUCAUCAUACUGGCU AGCCAGUAUGAUGAGCUUG 5899 1913 987 CGCCGUACGUCCAUGGGUG CACCCAUGGACGUACGGCG 5900 2191 988 AGAGUUACUUCACUCUAGG CCUAGAGUGAAGUAACUCU 5901 295 989 GUUGGACAUGGCCAUGGAA UUCCAUGGCCAUGUCCAAC 5902 1149 990 UGGCUAUUACGACAGACUG CAGUCUGUCGUAAUAGCCA 5903 533 991 ACUCGAGCUCAGAGGGUAC GUACCCUCUGAGCUCGAGU 5904 604 992 ACAGUUUGAUGCUGCUCAU AUGAGCAGCAUCAAACUGU 5905 766 993 GGUGGUUAAUAAGGCUGCA UGCAGCCUUAUUAACCACC 5906 1823 994 CUUUGUCCCGCAAAUCAUG CAUGAUUUGCGGGACAAAG 5907 2048 995 AAUACCAUUCCAUUGUUUG CAAACAAUGGAAUGGUAUU 5908 714 996 CCACACGUGCAAUCCCUGA UCAGGGAUUGCACGUGUGG 5909 2439 997 AUGGCCAGGAUGCCUUGGG CCCAAGGCAUCCUGGCCAU 5910 1903 998 GGAUACCCAGCGCCGUACG CGUACGGCGCUGGGUAUCC 5911 2395 999 UCGCCAGGAUGAUCCUAGC GCUAGGAUCAUCCUGGCGA 5912 789 1000 UGGUCCAUCAGCUUUCUAA UUAGAAAGCUGAUGGACCA 5913 3085 1001 AUAUGUAUGGGUAGGGUAA UUACCCUACCCAUACAUAU 5914 1710 1002 CCCAGAAUGCAGUUCGCCU AGGCGAACUGCAUUCUGGG 5915 1336 1003 UAUUGUAGAAGCUGGUGGA UCCACCAGCUUCUACAAUA 5916 3089 1004 GUAUGGGUAGGGUAAAUCA UGAUUUACCCUACCCAUAC 5917 2351 1005 GAUCUUGGACUUGAUAUUG CAAUAUCAAGUCCAAGAUC 5918 716 1006 ACACGUGCAAUCCCUGAAC GUUCAGGGAUUGCACGUGU 5919 1911 1007 AGCGCCGUACGUCCAUGGG CCCAUGGACGUACGGCGCU 5920 1985 1008 UGUACCGGAGCCCUUCACA UGUGAAGGGCUCCGGUACA 5921 2516 1009 GUUGAUGGGCUGCCAGAUC GAUCUGGCAGCCCAUCAAC 5922 1762 1010 ACACCCACCAUCCCACUGG CCAGUGGGAUGGUGGGUGU 5923 1156 1011 UACGACAGACUGCCUUCAA UUGAAGGCAGUCUGUCGUA 5924 1887 1012 UUGUUCGUGCACAUCAGGA UCCUGAUGUGCACGAACAA 5925 1833 1013 CAAAUCAUGCACCUUUGCG CGCAAAGGUGCAUGAUUUG 5926 967 1014 GUCUGGAGGCAUUCCUGCC GGCAGGAAUGCCUCCAGAC 5927 1730 1015 CACUAUGGACUACCAGUUG CAACUGGUAGUCCAUAGUG 5928 829 1016 UAUCAUGCGUUCUCCUCAG CUGAGGAGAACGCAUGAUA 5929 890 1017 GUAGAAACAGCUCGUUGUA UACAACGAGCUGUUUCUAC 5930 2181 1018 CUCCUCUGACAGAGUUACU AGUAACUCUGUCAGAGGAG 5931 2131 1019 UGCUCAGGACAAGGAAGCU AGCUUCCUUGUCCUGAGCA 5932 1586 1020 CAAGUGGGUGGUAUAGAGG CCUCUAUACCACCCACUUG 5933 765 1021 UGGUGGUUAAUAAGGCUGC GCAGCCUUAUUAACCACCA 5934 1369 1022 ACUUCACCUGACAGAUCCA UGGAUCUGUCAGGUGAAGU 5935 1724 1023 CGCCUUCACUAUGGACUAC GUAGUCCAUAGUGAAGGCG 5936 834 1024 UGCGUUCUCCUCAGAUGGU ACCAUCUGAGGAGAACGCA 5937 1983 1025 GUUGUACCGGAGCCCUUCA UGAAGGGCUCCGGUACAAC 5938 1688 1026 CGACACCAAGAAGCAGAGA UCUCUGCUUCUUGGUGUCG 5939 1004 1027 UCACCAGUGGAUUCUGUGU ACACAGAAUCCACUGGUGA 5940 1631 1028 GGUGACAGGGAAGACAUCA UGAUGUCUUCCCUGUCACC 5941 1319 1029 UCUAGUAAUAAGCCGGCUA UAGCCGGCUUAUUACUAGA 5942 767 1030 GUGGUUAAUAAGGCUGCAG CUGCAGCCUUAUUAACCAC 5943 841 1031 UCCUCAGAUGGUGUCUGCU AGCAGACACCAUCUGAGGA 5944 516 1032 AUGGACAGUAUGCAAUGAC GUCAUUGCAUACUGUCCAU 5945 1848 1033 UGCGUGAGCAGGGUGCCAU AUGGCACCCUGCUCACGCA 5946 2202 1034 ACUCUAGGAAUGAAGGUGU ACACCUUCAUUCCUAGAGU 5947 571 1035 GACAUUAGAUGAGGGCAUG CAUGCCCUCAUCUAAUGUC 5948 1629 1036 CUGGUGACAGGGAAGACAU AUGUCUUCCCUGUCACCAG 5949 1806 1037 UGAUUCGAAAUCUUGCCCU AGGGCAAGAUUUCGAAUCA 5950 1756 1038 GCUCUUACACCCACCAUCC GGAUGGUGGGUGUAAGAGC 5951 1619 1039 GUCCUUCGGGCUGGUGACA UGUCACCAGCCCGAAGGAC 5952 1610 1040 GUGCGUACUGUCCUUCGGG CCCGAAGGACAGUACGCAC 5953 2500 1041 UGGUGCUGACUAUCCAGUU AACUGGAUAGUCAGCACCA 5954 2156 1042 GCUAUUGAAGCUGAGGGAG CUCCCUCAGCUUCAAUAGC 5955 1189 1043 CAACCAAGAAAGCAAGCUC GAGCUUGCUUUCUUGGUUG 5956 2066 1044 GUGCAGCUGCUUUAUUCUC GAGAAUAAAGCAGCUGCAC 5957 1307 1045 CUAUCUGUCUGCUCUAGUA UACUAGAGCAGACAGAUAG 5958 1448 1046 AAACAGGAAGGGAUGGAAG CUUCCAUCCCUUCCUGUUU 5959 1213 1047 ACUGGCUAGUGGUGGACCC GGGUCCACCACUAGCCAGU 5960 2119 1048 CCUCUGUGAACUUGCUCAG CUGAGCAAGUUCACAGAGG 5961 889 1049 UGUAGAAACAGCUCGUUGU ACAACGAGCUGUUUCUACA 5962 1376 1050 CUGACAGAUCCAAGUCAAC GUUGACUUGGAUCUGUCAG 5963 427 1051 GGAAGAGGAUGUGGAUACC GGUAUCCACAUCCUCUUCC 5964 649 1052 ACCAUCACAGAUGCUGAAA UUUCAGCAUCUGUGAUGGU 5965 1915 1053 CCGUACGUCCAUGGGUGGG CCCACCCAUGGACGUACGG 5966 2053 1054 CAUUCCAUUGUUUGUGCAG CUGCACAAACAAUGGAAUG 5967 2568 1055 CUCCAGGUGACAGCAAUCA UGAUUGCUGUCACCUGGAG 5968 1739 1056 CUACCAGUUGUGGUUAAGC GCUUAACCACAACUGGUAG 5969 1746 1057 UUGUGGUUAAGCUCUUACA UGUAAGAGCUUAACCACAA 5970 1321 1058 UAGUAAUAAGCCGGCUAUU AAUAGCCGGCUUAUUACUA 5971 482 1059 CAGUCCUUCACUCAAGAAC GUUCUUGAGUGAAGGACUG 5972 280 1060 AGCUGAUUUGAUGGAGUUG CAACUCCAUCAAAUCAGCU 5973 1465 1061 AGGUCUCCUUGGGACUCUU AAGAGUCCCAAGGAGACCU 5974 1731 1062 ACUAUGGACUACCAGUUGU ACAACUGGUAGUCCAUAGU 5975 1937 1063 CAGCAGCAAUUUGUGGAGG CCUCCACAAAUUGCUGCUG 5976 1892 1064 CGUGCACAUCAGGAUACCC GGGUAUCCUGAUGUGCACG 5977 836 1065 CGUUCUCCUCAGAUGGUGU ACACCAUCUGAGGAGAACG 5978 521 1066 CAGUAUGCAAUGACUCGAG CUCGAGUCAUUGCAUACUG 5979 1595 1067 GGUAUAGAGGCUCUUGUGC GCACAAGAGCCUCUAUACC 5980 2511 1068 AUCCAGUUGAUGGGCUGCC GGCAGCCCAUCAACUGGAU 5981 1583 1069 UGCCAAGUGGGUGGUAUAG CUAUACCACCCACUUGGCA 5982 1897 1070 ACAUCAGGAUACCCAGCGC GCGCUGGGUAUCCUGAUGU 5983 956 1071 GCCAUCUUUAAGUCUGGAG CUCCAGACUUAAAGAUGGC 5984 926 1072 AACCUUUCCCAUCAUCGUG CACGAUGAUGGGAAAGGUU 5985 1874 1073 CUAGUUCAGUUGCUUGUUC GAACAAGCAACUGAACUAG 5986 488 1074 UUCACUCAAGAACAAGUAG CUACUUGUUCUUGAGUGAA 5987 1695 1075 AAGAAGCAGAGAUGGCCCA UGGGCCAUCUCUGCUUCUU 5988 2182 1076 UCCUCUGACAGAGUUACUU AAGUAACUCUGUCAGAGGA 5989 2029 1077 AAUUGUUAUCAGAGGACUA UAGUCCUCUGAUAACAAUU 5990 479 1078 UCUCAGUCCUUCACUCAAG CUUGAGUGAAGGACUGAGA 5991 818 1079 UCCAGACACGCUAUCAUGC GCAUGAUAGCGUGUCUGGA 5992 625 1080 CACUAAUGUCCAGCGUUUG CAAACGCUGGACAUUAGUG 5993 3172 1081 UUGUAACCUGCUGUGAUAC GUAUCACAGCAGGUUACAA 5994 1490 1082 CUUCUGGGUUCAGAUGAUA UAUCAUCUGAACCCAGAAG 5995 1914 1083 GCCGUACGUCCAUGGGUGG CCACCCAUGGACGUACGGC 5996 1974 1084 UAGUUGAAGGUUGUACCGG CCGGUACAACCUUCAACUA 5997 2258 1085 GAGGACAAGCCACAAGAUU AAUCUUGUGGCUUGUCCUC 5998 2170 1086 GGGAGCCACAGCUCCUCUG CAGAGGAGCUGUGGCUCCC 5999 1370 1087 CUUCACCUGACAGAUCCAA UUGGAUCUGUCAGGUGAAG 6000 1429 1088 UCUUUCAGAUGCUGCAACU AGUUGCAGCAUCUGAAAGA 6001 3173 1089 UGUAACCUGCUGUGAUACG CGUAUCACAGCAGGUUACA 6002 444 1090 CCUCCCAAGUCCUGUAUGA UCAUACAGGACUUGGGAGG 6003 1081 1091 GGCAGUGCGUUUAGCUGGU ACCAGCUAAACGCACUGCC 6004 1318 1092 CUCUAGUAAUAAGCCGGCU AGCCGGCUUAUUACUAGAG 6005 329 1093 GCUGUUAGUCACUGGCAGC GCUGCCAGUGACUAACAGC 6006 1389 1094 GUCAACGUCUUGUUCAGAA UUCUGAACAAGACGUUGAC 6007 428 1095 GAAGAGGAUGUGGAUACCU AGGUAUCCACAUCCUCUUC 6008 3175 1096 UAACCUGCUGUGAUACGAU AUCGUAUCACAGCAGGUUA 6009 3117 1097 GUUAUUUGGAACCUUGUUU AAACAAGGUUCCAAAUAAC 6010 2020 1098 UCACAACCGAAUUGUUAUC GAUAACAAUUCGGUUGUGA 6011 1625 1099 CGGGCUGGUGACAGGGAAG CUUCCCUGUCACCAGCCCG 6012 2022 1100 ACAACCGAAUUGUUAUCAG CUGAUAACAAUUCGGUUGU 6013 624 1101 CCACUAAUGUCCAGCGUUU AAACGCUGGACAUUAGUGG 6014 1648 1102 CACUGAGCCUGCCAUCUGU ACAGAUGGCAGGCUCAGUG 6015 790 1103 GGUCCAUCAGCUUUCUAAA UUUAGAAAGCUGAUGGACC 6016 3160 1104 AUCCCAAAGUUGUUGUAAC GUUACAACAACUUUGGGAU 6017 1251 1105 UGAGGACCUAUACUUACGA UCGUAAGUAUAGGUCCUCA 6018 2253 1106 UGUCUGAGGACAAGCCACA UGUGGCUUGUCCUCAGACA 6019 2515 1107 AGUUGAUGGGCUGCCAGAU AUCUGGCAGCCCAUCAACU 6020 1680 1108 UGACCAGCCGACACCAAGA UCUUGGUGUCGGCUGGUCA 6021 2169 1109 AGGGAGCCACAGCUCCUCU AGAGGAGCUGUGGCUCCCU 6022 3165 1110 AAAGUUGUUGUAACCUGCU AGCAGGUUACAACAACUUU 6023 780 1111 CUGCAGUUAUGGUCCAUCA UGAUGGACCAUAACUGCAG 6024 1978 1112 UGAAGGUUGUACCGGAGCC GGCUCCGGUACAACCUUCA 6025 563 1113 UUCCCUGAGACAUUAGAUG CAUCUAAUGUCUCAGGGAA 6026 1622 1114 CUUCGGGCUGGUGACAGGG CCCUGUCACCAGCCCGAAG 6027 2295 1115 UUGAGCUGACCAGCUCUCU AGAGAGCUGGUCAGCUCAA 6028 2126 1116 GAACUUGCUCAGGACAAGG CCUUGUCCUGAGCAAGUUC 6029 1683 1117 CCAGCCGACACCAAGAAGC GCUUCUUGGUGUCGGCUGG 6030 1857 1118 AGGGUGCCAUUCCACGACU AGUCGUGGAAUGGCACCCU 6031 2064 1119 UUGUGCAGCUGCUUUAUUC GAAUAAAGCAGCUGCACAA 6032 489 1120 UCACUCAAGAACAAGUAGC GCUACUUGUUCUUGAGUGA 6033 1346 1121 GCUGGUGGAAUGCAAGCUU AAGCUUGCAUUCCACCAGC 6034 1442 1122 GCAACUAAACAGGAAGGGA UCCCUUCCUGUUUAGUUGC 6035 1981 1123 AGGUUGUACCGGAGCCCUU AAGGGCUCCGGUACAACCU 6036 777 1124 AGGCUGCAGUUAUGGUCCA UGGACCAUAACUGCAGCCU 6037 589 1125 GCAGAUCCCAUCUACACAG CUGUGUAGAUGGGAUCUGC 6038 2205 1126 CUAGGAAUGAAGGUGUGGC GCCACACCUUCAUUCCUAG 6039 394 1127 AGCUCCUUCUCUGAGUGGU ACCACUCAGAGAAGGAGCU 6040 1035 1128 UUACAACUCUCCACAACCU AGGUUGUGGAGAGUUGUAA 6041 410 1129 GGUAAAGGCAAUCCUGAGG CCUCAGGAUUGCCUUUACC 6042 1721 1130 GUUCGCCUUCACUAUGGAC GUCCAUAGUGAAGGCGAAC 6043 1134 1131 CAAAUGUUAAAUUCUUGGC GCCAAGAAUUUAACAUUUG 6044 3182 1132 CUGUGAUACGAUGCUUCAA UUGAAGCAUCGUAUCACAG 6045 881 1133 ACAAAUGAUGUAGAAACAG CUGUUUCUACAUCAUUUGU 6046 547 1134 GGUACGAGCUGCUAUGUUC GAACAUAGCAGCUCGUACC 6047 2028 1135 GAAUUGUUAUCAGAGGACU AGUCCUCUGAUAACAAUUC 6048 2023 1136 CAACCGAAUUGUUAUCAGA UCUGAUAACAAUUCGGUUG 6049 3184 1137 GUGAUACGAUGCUUCAAGA UCUUGAAGCAUCGUAUCAC 6050 413 1138 AAAGGCAAUCCUGAGGAAG CUUCCUCAGGAUUGCCUUU 6051 2178 1139 CAGCUCCUCUGACAGAGUU AACUCUGUCAGAGGAGCUG 6052 1577 1140 AUGGUCUGCCAAGUGGGUG CACCCACUUGGCAGACCAU 6053 1793 1141 GCUACUGUUGGAUUGAUUC GAAUCAAUCCAACAGUAGC 6054 526 1142 UGCAAUGACUCGAGCUCAG CUGAGCUCGAGUCAUUGCA 6055 2358 1143 GACUUGAUAUUGGUGCCCA UGGGCACCAAUAUCAAGUC 6056 1403 1144 CAGAACUGUCUUUGGACUC GAGUCCAAAGACAGUUCUG 6057 1875 1145 UAGUUCAGUUGCUUGUUCG CGAACAAGCAACUGAACUA 6058 1160 1146 ACAGACUGCCUUCAAAUUU AAAUUUGAAGGCAGUCUGU 6059 1591 1147 GGGUGGUAUAGAGGCUCUU AAGAGCCUCUAUACCACCC 6060 1734 1148 AUGGACUACCAGUUGUGGU ACCACAACUGGUAGUCCAU 6061 2030 1149 AUUGUUAUCAGAGGACUAA UUAGUCCUCUGAUAACAAU 6062 775 1150 UAAGGCUGCAGUUAUGGUC GACCAUAACUGCAGCCUUA 6063 1813 1151 AAAUCUUGCCCUUUGUCCC GGGACAAAGGGCAAGAUUU 6064 1938 1152 AGCAGCAAUUUGUGGAGGG CCCUCCACAAAUUGCUGCU 6065 2039 1153 AGAGGACUAAAUACCAUUC GAAUGGUAUUUAGUCCUCU 6066 1297 1154 GCUGAAGGUGCUAUCUGUC GACAGAUAGCACCUUCAGC 6067 456 1155 UGUAUGAGUGGGAACAGGG CCCUGUUCCCACUCAUACA 6068 590 1156 CAGAUCCCAUCUACACAGU ACUGUGUAGAUGGGAUCUG 6069 1933 1157 GACACAGCAGCAAUUUGUG CACAAAUUGCUGCUGUGUC 6070 583 1158 GGGCAUGCAGAUCCCAUCU AGAUGGGAUCUGCAUGCCC 6071 2540 1159 CAUGCCCAGGACCUCAUGG CCAUGAGGUCCUGGGCAUG 6072 2162 1160 GAAGCUGAGGGAGCCACAG CUGUGGCUCCCUCAGCUUC 6073 330 1161 CUGUUAGUCACUGGCAGCA UGCUGCCAGUGACUAACAG 6074 1481 1162 CUUGUUCAGCUUCUGGGUU AACCCAGAAGCUGAACAAG 6075 1344 1163 AAGCUGGUGGAAUGCAAGC GCUUGCAUUCCACCAGCUU 6076 431 1164 GAGGAUGUGGAUACCUCCC GGGAGGUAUCCACAUCCUC 6077 1508 1165 AUAAAUGUGGUCACCUGUG CACAGGUGACCACAUUUAU 6078 1918 1166 UACGUCCAUGGGUGGGACA UGUCCCACCCAUGGACGUA 6079 289 1167 GAUGGAGUUGGACAUGGCC GGCCAUGUCCAACUCCAUC 6080 631 1168 UGUCCAGCGUUUGGCUGAA UUCAGCCAAACGCUGGACA 6081 1853 1169 GAGCAGGGUGCCAUUCCAC GUGGAAUGGCACCCUGCUC 6082 1243 1170 AAAUAUAAUGAGGACCUAU AUAGGUCCUCAUUAUAUUU 6083 1212 1171 UACUGGCUAGUGGUGGACC GGUCCACCACUAGCCAGUA 6084 996 1172 UGCUUGGUUCACCAGUGGA UCCACUGGUGAACCAAGCA 6085 2256 1173 CUGAGGACAAGCCACAAGA UCUUGUGGCUUGUCCUCAG 6086 1607 1174 CUUGUGCGUACUGUCCUUC GAAGGACAGUACGCACAAG 6087 3116 1175 UGUUAUUUGGAACCUUGUU AACAAGGUUCCAAAUAACA 6088 1179 1176 UAGCUUAUGGCAACCAAGA UCUUGGUUGCCAUAAGCUA 6089 3185 1177 UGAUACGAUGCUUCAAGAG CUCUUGAAGCAUCGUAUCA 6090 1594 1178 UGGUAUAGAGGCUCUUGUG CACAAGAGCCUCUAUACCA 6091 887 1179 GAUGUAGAAACAGCUCGUU AACGAGCUGUUUCUACAUC 6092 928 1180 CCUUUCCCAUCAUCGUGAG CUCACGAUGAUGGGAAAGG 6093 835 1181 GCGUUCUCCUCAGAUGGUG CACCAUCUGAGGAGAACGC 6094 1900 1182 UCAGGAUACCCAGCGCCGU ACGGCGCUGGGUAUCCUGA 6095 2284 1183 ACGGCUUUCAGUUGAGCUG CAGCUCAACUGAAAGCCGU 6096 1976 1184 GUUGAAGGUUGUACCGGAG CUCCGGUACAACCUUCAAC 6097 2393 1185 UAUCGCCAGGAUGAUCCUA UAGGAUCAUCCUGGCGAUA 6098 1295 1186 GUGCUGAAGGUGCUAUCUG CAGAUAGCACCUUCAGCAC 6099 1410 1187 GUCUUUGGACUCUCAGGAA UUCCUGAGAGUCCAAAGAC 6100 1457 1188 GGGAUGGAAGGUCUCCUUG CAAGGAGACCUUCCAUCCC 6101 2296 1189 UGAGCUGACCAGCUCUCUC GAGAGAGCUGGUCAGCUCA 6102 929 1190 CUUUCCCAUCAUCGUGAGG CCUCACGAUGAUGGGAAAG 6103 1359 1191 AAGCUUUAGGACUUCACCU AGGUGAAGUCCUAAAGCUU 6104 1351 1192 UGGAAUGCAAGCUUUAGGA UCCUAAAGCUUGCAUUCCA 6105 969 1193 CUGGAGGCAUUCCUGCCCU AGGGCAGGAAUGCCUCCAG 6106 1876 1194 AGUUCAGUUGCUUGUUCGU ACGAACAAGCAACUGAACU 6107 552 1195 GAGCUGCUAUGUUCCCUGA UCAGGGAACAUAGCAGCUC 6108 2441 1196 GGCCAGGAUGCCUUGGGUA UACCCAAGGCAUCCUGGCC 6109 2402 1197 GAUGAUCCUAGCUAUCGUU AACGAUAGCUAGGAUCAUC 6110 1803 1198 GAUUGAUUCGAAAUCUUGC GCAAGAUUUCGAAUCAAUC 6111 1701 1199 CAGAGAUGGCCCAGAAUGC GCAUUCUGGGCCAUCUCUG 6112 1910 1200 CAGCGCCGUACGUCCAUGG CCAUGGACGUACGGCGCUG 6113 888 1201 AUGUAGAAACAGCUCGUUG CAACGAGCUGUUUCUACAU 6114 1294 1202 AGUGCUGAAGGUGCUAUCU AGAUAGCACCUUCAGCACU 6115 1737 1203 GACUACCAGUUGUGGUUAA UUAACCACAACUGGUAGUC 6116 1450 1204 ACAGGAAGGGAUGGAAGGU ACCUUCCAUCCCUUCCUGU 6117 761 1205 CAGGUGGUGGUUAAUAAGG CCUUAUUAACCACCACCUG 6118 776 1206 AAGGCUGCAGUUAUGGUCC GGACCAUAACUGCAGCCUU 6119 1509 1207 UAAAUGUGGUCACCUGUGC GCACAGGUGACCACAUUUA 6120 1788 1208 UAAAGGCUACUGUUGGAUU AAUCCAACAGUAGCCUUUA 6121 515 1209 GAUGGACAGUAUGCAAUGA UCAUUGCAUACUGUCCAUC 6122 1491 1210 UUCUGGGUUCAGAUGAUAU AUAUCAUCUGAACCCAGAA 6123 1614 1211 GUACUGUCCUUCGGGCUGG CCAGCCCGAAGGACAGUAC 6124 998 1212 CUUGGUUCACCAGUGGAUU AAUCCACUGGUGAACCAAG 6125 2158 1213 UAUUGAAGCUGAGGGAGCC GGCUCCCUCAGCUUCAAUA 6126 3168 1214 GUUGUUGUAACCUGCUGUG CACAGCAGGUUACAACAAC 6127 1854 1215 AGCAGGGUGCCAUUCCACG CGUGGAAUGGCACCCUGCU 6128 2117 1216 GUCCUCUGUGAACUUGCUC GAGCAAGUUCACAGAGGAC 6129 1678 1217 UCUGACCAGCCGACACCAA UUGGUGUCGGCUGGUCAGA 6130 305 1218 GCCAUGGAACCAGACAGAA UUCUGUCUGGUUCCAUGGC 6131 2154 1219 AAGCUAUUGAAGCUGAGGG CCCUCAGCUUCAAUAGCUU 6132 1807 1220 GAUUCGAAAUCUUGCCCUU AAGGGCAAGAUUUCGAAUC 6133 1881 1221 AGUUGCUUGUUCGUGCACA UGUGCACGAACAAGCAACU 6134 1565 1222 AAGAACAAGAUGAUGGUCU AGACCAUCAUCUUGUUCUU 6135 407 1223 AGUGGUAAAGGCAAUCCUG CAGGAUUGCCUUUACCACU 6136 1434 1224 CAGAUGCUGCAACUAAACA UGUUUAGUUGCAGCAUCUG 6137 566 1225 CCUGAGACAUUAGAUGAGG CCUCAUCUAAUGUCUCAGG 6138 3161 1226 UCCCAAAGUUGUUGUAACC GGUUACAACAACUUUGGGA 6139 1679 1227 CUGACCAGCCGACACCAAG CUUGGUGUCGGCUGGUCAG 6140 2096 1228 AUCCAAAGAGUAGCUGCAG CUGCAGCUACUCUUUGGAU 6141 630 1229 AUGUCCAGCGUUUGGCUGA UCAGCCAAACGCUGGACAU 6142 1606 1230 UCUUGUGCGUACUGUCCUU AAGGACAGUACGCACAAGA 6143 432 1231 AGGAUGUGGAUACCUCCCA UGGGAGGUAUCCACAUCCU 6144 778 1232 GGCUGCAGUUAUGGUCCAU AUGGACCAUAACUGCAGCC 6145 1999 1233 UCACAUCCUAGCUCGGGAU AUCCCGAGCUAGGAUGUGA 6146 1692 1234 ACCAAGAAGCAGAGAUGGC GCCAUCUCUGCUUCUUGGU 6147 2490 1235 GCCACCACCCUGGUGCUGA UCAGCACCAGGGUGGUGGC 6148 623 1236 CCCACUAAUGUCCAGCGUU AACGCUGGACAUUAGUGGG 6149 339 1237 ACUGGCAGCAACAGUCUUA UAAGACUGUUGCUGCCAGU 6150 2946 1238 AUCUGAAUAAAGUGUAACA UGUUACACUUUAUUCAGAU 6151 1654 1239 GCCUGCCAUCUGUGCUCUU AAGAGCACAGAUGGCAGGC 6152 1033 1240 CAUUACAACUCUCCACAAC GUUGUGGAGAGUUGUAAUG 6153 840 1241 CUCCUCAGAUGGUGUCUGC GCAGACACCAUCUGAGGAG 6154 1880 1242 CAGUUGCUUGUUCGUGCAC GUGCACGAACAAGCAACUG 6155 420 1243 AUCCUGAGGAAGAGGAUGU ACAUCCUCUUCCUCAGGAU 6156 1005 1244 CACCAGUGGAUUCUGUGUU AACACAGAAUCCACUGGUG 6157 1193 1245 CAAGAAAGCAAGCUCAUCA UGAUGAGCUUGCUUUCUUG 6158 919 1246 CUUGCAUAACCUUUCCCAU AUGGGAAAGGUUAUGCAAG 6159 1727 1247 CUUCACUAUGGACUACCAG CUGGUAGUCCAUAGUGAAG 6160 1883 1248 UUGCUUGUUCGUGCACAUC GAUGUGCACGAACAAGCAA 6161 859 1249 UAUUGUACGUACCAUGCAG CUGCAUGGUACGUACAAUA 6162 1812 1250 GAAAUCUUGCCCUUUGUCC GGACAAAGGGCAAGAUUUC 6163 1605 1251 CUCUUGUGCGUACUGUCCU AGGACAGUACGCACAAGAG 6164 2021 1252 CACAACCGAAUUGUUAUCA UGAUAACAAUUCGGUUGUG 6165 2180 1253 GCUCCUCUGACAGAGUUAC GUAACUCUGUCAGAGGAGC 6166 636 1254 AGCGUUUGGCUGAACCAUC GAUGGUUCAGCCAAACGCU 6167 2282 1255 AAACGGCUUUCAGUUGAGC GCUCAACUGAAAGCCGUUU 6168 1824 1256 UUUGUCCCGCAAAUCAUGC GCAUGAUUUGCGGGACAAA 6169 2204 1257 UCUAGGAAUGAAGGUGUGG CCACACCUUCAUUCCUAGA 6170 450 1258 AAGUCCUGUAUGAGUGGGA UCCCACUCAUACAGGACUU 6171 1001 1259 GGUUCACCAGUGGAUUCUG CAGAAUCCACUGGUGAACC 6172 1579 1260 GGUCUGCCAAGUGGGUGGU ACCACCCACUUGGCAGACC 6173 2179 1261 AGCUCCUCUGACAGAGUUA UAACUCUGUCAGAGGAGCU 6174 376 1262 UUCUGGUGCCACUACCACA UGUGGUAGUGGCACCAGAA 6175 556 1263 UGCUAUGUUCCCUGAGACA UGUCUCAGGGAACAUAGCA 6176 1804 1264 AUUGAUUCGAAAUCUUGCC GGCAAGAUUUCGAAUCAAU 6177 2552 1265 CUCAUGGAUGGGCUGCCUC GAGGCAGCCCAUCCAUGAG 6178 2071 1266 GCUGCUUUAUUCUCCCAUU AAUGGGAGAAUAAAGCAGC 6179 1836 1267 AUCAUGCACCUUUGCGUGA UCACGCAAAGGUGCAUGAU 6180 336 1268 GUCACUGGCAGCAACAGUC GACUGUUGCUGCCAGUGAC 6181 460 1269 UGAGUGGGAACAGGGAUUU AAAUCCCUGUUCCCACUCA 6182 1559 1270 AAUUAUAAGAACAAGAUGA UCAUCUUGUUCUUAUAAUU 6183 3136 1271 UGGACAGUUUACCAGUUGC GCAACUGGUAAACUGUCCA 6184 1250 1272 AUGAGGACCUAUACUUACG CGUAAGUAUAGGUCCUCAU 6185 1462 1273 GGAAGGUCUCCUUGGGACU AGUCCCAAGGAGACCUUCC 6186 1965 1274 UGGAAGAAAUAGUUGAAGG CCUUCAACUAUUUCUUCCA 6187 3114 1275 GGUGUUAUUUGGAACCUUG CAAGGUUCCAAAUAACACC 6188 1665 1276 GUGCUCUUCGUCAUCUGAC GUCAGAUGACGAAGAGCAC 6189 304 1277 GGCCAUGGAACCAGACAGA UCUGUCUGGUUCCAUGGCC 6190 327 1278 CGGCUGUUAGUCACUGGCA UGCCAGUGACUAACAGCCG 6191 1866 1279 UUCCACGACUAGUUCAGUU AACUGAACUAGUCGUGGAA 6192 1699 1280 AGCAGAGAUGGCCCAGAAU AUUCUGGGCCAUCUCUGCU 6193 2397 1281 GCCAGGAUGAUCCUAGCUA UAGCUAGGAUCAUCCUGGC 6194 1658 1282 GCCAUCUGUGCUCUUCGUC GACGAAGAGCACAGAUGGC 6195 891 1283 UAGAAACAGCUCGUUGUAC GUACAACGAGCUGUUUCUA 6196 1572 1284 AGAUGAUGGUCUGCCAAGU ACUUGGCAGACCAUCAUCU 6197 927 1285 ACCUUUCCCAUCAUCGUGA UCACGAUGAUGGGAAAGGU 6198 290 1286 AUGGAGUUGGACAUGGCCA UGGCCAUGUCCAACUCCAU 6199 1663 1287 CUGUGCUCUUCGUCAUCUG CAGAUGACGAAGAGCACAG 6200 1562 1288 UAUAAGAACAAGAUGAUGG CCAUCAUCUUGUUCUUAUA 6201 2947 1289 UCUGAAUAAAGUGUAACAA UUGUUACACUUUAUUCAGA 6202 1711 1290 CCAGAAUGCAGUUCGCCUU AAGGCGAACUGCAUUCUGG 6203 1566 1291 AGAACAAGAUGAUGGUCUG CAGACCAUCAUCUUGUUCU 6204 1815 1292 AUCUUGCCCUUUGUCCCGC GCGGGACAAAGGGCAAGAU 6205 1087 1293 GCGUUUAGCUGGUGGGCUG CAGCCCACCAGCUAAACGC 6206 1495 1294 GGGUUCAGAUGAUAUAAAU AUUUAUAUCAUCUGAACCC 6207 1363 1295 UUUAGGACUUCACCUGACA UGUCAGGUGAAGUCCUAAA 6208 391 1296 CACAGCUCCUUCUCUGAGU ACUCAGAGAAGGAGCUGUG 6209 1392 1297 AACGUCUUGUUCAGAACUG CAGUUCUGAACAAGACGUU 6210 1935 1298 CACAGCAGCAAUUUGUGGA UCCACAAAUUGCUGCUGUG 6211 1872 1299 GACUAGUUCAGUUGCUUGU ACAAGCAACUGAACUAGUC 6212 1159 1300 GACAGACUGCCUUCAAAUU AAUUUGAAGGCAGUCUGUC 6213 2308 1301 CUCUCUCUUCAGAACAGAG CUCUGUUCUGAAGAGAGAG 6214 632 1302 GUCCAGCGUUUGGCUGAAC GUUCAGCCAAACGCUGGAC 6215 1564 1303 UAAGAACAAGAUGAUGGUC GACCAUCAUCUUGUUCUUA 6216 1384 1304 UCCAAGUCAACGUCUUGUU AACAAGACGUUGACUUGGA 6217 1690 1305 ACACCAAGAAGCAGAGAUG CAUCUCUGCUUCUUGGUGU 6218 1421 1306 CUCAGGAAUCUUUCAGAUG CAUCUGAAAGAUUCCUGAG 6219 1141 1307 UAAAUUCUUGGCUAUUACG CGUAAUAGCCAAGAAUUUA 6220 1732 1308 CUAUGGACUACCAGUUGUG CACAACUGGUAGUCCAUAG 6221 634 1309 CCAGCGUUUGGCUGAACCA UGGUUCAGCCAAACGCUGG 6222 932 1310 UCCCAUCAUCGUGAGGGCU AGCCCUCACGAUGAUGGGA 6223 1366 1311 AGGACUUCACCUGACAGAU AUCUGUCAGGUGAAGUCCU 6224 1608 1312 UUGUGCGUACUGUCCUUCG CGAAGGACAGUACGCACAA 6225 1923 1313 CCAUGGGUGGGACACAGCA UGCUGUGUCCCACCCAUGG 6226 1458 1314 GGAUGGAAGGUCUCCUUGG CCAAGGAGACCUUCCAUCC 6227 1908 1315 CCCAGCGCCGUACGUCCAU AUGGACGUACGGCGCUGGG 6228 539 1316 GCUCAGAGGGUACGAGCUG CAGCUCGUACCCUCUGAGC 6229 2016 1317 AUGUUCACAACCGAAUUGU ACAAUUCGGUUGUGAACAU 6230 1884 1318 UGCUUGUUCGUGCACAUCA UGAUGUGCACGAACAAGCA 6231 560 1319 AUGUUCCCUGAGACAUUAG CUAAUGUCUCAGGGAACAU 6232 411 1320 GUAAAGGCAAUCCUGAGGA UCCUCAGGAUUGCCUUUAC 6233 338 1321 CACUGGCAGCAACAGUCUU AAGACUGUUGCUGCCAGUG 6234 830 1322 AUCAUGCGUUCUCCUCAGA UCUGAGGAGAACGCAUGAU 6235 3086 1323 UAUGUAUGGGUAGGGUAAA UUUACCCUACCCAUACAUA 6236 3115 1324 GUGUUAUUUGGAACCUUGU ACAAGGUUCCAAAUAACAC 6237 2177 1325 ACAGCUCCUCUGACAGAGU ACUCUGUCAGAGGAGCUGU 6238 1733 1326 UAUGGACUACCAGUUGUGG CCACAACUGGUAGUCCAUA 6239 375 1327 AUUCUGGUGCCACUACCAC GUGGUAGUGGCACCAGAAU 6240 2565 1328 UGCCUCCAGGUGACAGCAA UUGCUGUCACCUGGAGGCA 6241 442 1329 UACCUCCCAAGUCCUGUAU AUACAGGACUUGGGAGGUA 6242 819 1330 CCAGACACGCUAUCAUGCG CGCAUGAUAGCGUGUCUGG 6243 700 1331 UGAUGCAGAACUUGCCACA UGUGGCAAGUUCUGCAUCA 6244 1089 1332 GUUUAGCUGGUGGGCUGCA UGCAGCCCACCAGCUAAAC 6245 1580 1333 GUCUGCCAAGUGGGUGGUA UACCACCCACUUGGCAGAC 6246 1982 1334 GGUUGUACCGGAGCCCUUC GAAGGGCUCCGGUACAACC 6247 1986 1335 GUACCGGAGCCCUUCACAU AUGUGAAGGGCUCCGGUAC 6248 418 1336 CAAUCCUGAGGAAGAGGAU AUCCUCUUCCUCAGGAUUG 6249 1306 1337 GCUAUCUGUCUGCUCUAGU ACUAGAGCAGACAGAUAGC 6250 1377 1338 UGACAGAUCCAAGUCAACG CGUUGACUUGGAUCUGUCA 6251 2467 1339 CAUGAUGGAACAUGAGAUG CAUCUCAUGUUCCAUCAUG 6252 1414 1340 UUGGACUCUCAGGAAUCUU AAGAUUCCUGAGAGUCCAA 6253 1668 1341 CUCUUCGUCAUCUGACCAG CUGGUCAGAUGACGAAGAG 6254 1818 1342 UUGCCCUUUGUCCCGCAAA UUUGCGGGACAAAGGGCAA 6255 1697 1343 GAAGCAGAGAUGGCCCAGA UCUGGGCCAUCUCUGCUUC 6256 918 1344 CCUUGCAUAACCUUUCCCA UGGGAAAGGUUAUGCAAGG 6257 605 1345 CAGUUUGAUGCUGCUCAUC GAUGAGCAGCAUCAAACUG 6258 1374 1346 ACCUGACAGAUCCAAGUCA UGACUUGGAUCUGUCAGGU 6259 1430 1347 CUUUCAGAUGCUGCAACUA UAGUUGCAGCAUCUGAAAG 6260 3186 1348 GAUACGAUGCUUCAAGAGA UCUCUUGAAGCAUCGUAUC 6261 1355 1349 AUGCAAGCUUUAGGACUUC GAAGUCCUAAAGCUUGCAU 6262 433 1350 GGAUGUGGAUACCUCCCAA UUGGGAGGUAUCCACAUCC 6263 1713 1351 AGAAUGCAGUUCGCCUUCA UGAAGGCGAACUGCAUUCU 6264 1811 1352 CGAAAUCUUGCCCUUUGUC GACAAAGGGCAAGAUUUCG 6265 491 1353 ACUCAAGAACAAGUAGCUG CAGCUACUUGUUCUUGAGU 6266 2209 1354 GAAUGAAGGUGUGGCGACA UGUCGCCACACCUUCAUUC 6267 1840 1355 UGCACCUUUGCGUGAGCAG CUGCUCACGCAAAGGUGCA 6268 550 1356 ACGAGCUGCUAUGUUCCCU AGGGAACAUAGCAGCUCGU 6269 429 1357 AAGAGGAUGUGGAUACCUC GAGGUAUCCACAUCCUCUU 6270 2436 1358 GAUAUGGCCAGGAUGCCUU AAGGCAUCCUGGCCAUAUC 6271 1597 1359 UAUAGAGGCUCUUGUGCGU ACGCACAAGAGCCUCUAUA 6272 1496 1360 GGUUCAGAUGAUAUAAAUG CAUUUAUAUCAUCUGAACC 6273 1456 1361 AGGGAUGGAAGGUCUCCUU AAGGAGACCUUCCAUCCCU 6274 3159 1362 UAUCCCAAAGUUGUUGUAA UUACAACAACUUUGGGAUA 6275 2309 1363 UCUCUCUUCAGAACAGAGC GCUCUGUUCUGAAGAGAGA 6276 2300 1364 CUGACCAGCUCUCUCUUCA UGAAGAGAGAGCUGGUCAG 6277 3177 1365 ACCUGCUGUGAUACGAUGC GCAUCGUAUCACAGCAGGU 6278 1079 1366 AUGGCAGUGCGUUUAGCUG CAGCUAAACGCACUGCCAU 6279 1383 1367 AUCCAAGUCAACGUCUUGU ACAAGACGUUGACUUGGAU 6280 2563 1368 GCUGCCUCCAGGUGACAGC GCUGUCACCUGGAGGCAGC 6281 1084 1369 AGUGCGUUUAGCUGGUGGG CCCACCAGCUAAACGCACU 6282 1329 1370 AGCCGGCUAUUGUAGAAGC GCUUCUACAAUAGCCGGCU 6283 573 1371 CAUUAGAUGAGGGCAUGCA UGCAUGCCCUCAUCUAAUG 6284 2213 1372 GAAGGUGUGGCGACAUAUG CAUAUGUCGCCACACCUUC 6285 1587 1373 AAGUGGGUGGUAUAGAGGC GCCUCUAUACCACCCACUU 6286 2166 1374 CUGAGGGAGCCACAGCUCC GGAGCUGUGGCUCCCUCAG 6287 637 1375 GCGUUUGGCUGAACCAUCA UGAUGGUUCAGCCAAACGC 6288 397 1376 UCCUUCUCUGAGUGGUAAA UUUACCACUCAGAGAAGGA 6289 1718 1377 GCAGUUCGCCUUCACUAUG CAUAGUGAAGGCGAACUGC 6290 2357 1378 GGACUUGAUAUUGGUGCCC GGGCACCAAUAUCAAGUCC 6291 639 1379 GUUUGGCUGAACCAUCACA UGUGAUGGUUCAGCCAAAC 6292 585 1380 GCAUGCAGAUCCCAUCUAC GUAGAUGGGAUCUGCAUGC 6293 2519 1381 GAUGGGCUGCCAGAUCUGG CCAGAUCUGGCAGCCCAUC 6294 1367 1382 GGACUUCACCUGACAGAUC GAUCUGUCAGGUGAAGUCC 6295 1391 1383 CAACGUCUUGUUCAGAACU AGUUCUGAACAAGACGUUG 6296 509 1384 GAUAUUGAUGGACAGUAUG CAUACUGUCCAUCAAUAUC 6297 303 1385 UGGCCAUGGAACCAGACAG CUGUCUGGUUCCAUGGCCA 6298 494 1386 CAAGAACAAGUAGCUGAUA UAUCAGCUACUUGUUCUUG 6299 328 1387 GGCUGUUAGUCACUGGCAG CUGCCAGUGACUAACAGCC 6300 2058 1388 CAUUGUUUGUGCAGCUGCU AGCAGCUGCACAAACAAUG 6301 1447 1389 UAAACAGGAAGGGAUGGAA UUCCAUCCCUUCCUGUUUA 6302 1563 1390 AUAAGAACAAGAUGAUGGU ACCAUCAUCUUGUUCUUAU 6303 1350 1391 GUGGAAUGCAAGCUUUAGG CCUAAAGCUUGCAUUCCAC 6304 2208 1392 GGAAUGAAGGUGUGGCGAC GUCGCCACACCUUCAUUCC 6305 1689 1393 GACACCAAGAAGCAGAGAU AUCUCUGCUUCUUGGUGUC 6306 1407 1394 ACUGUCUUUGGACUCUCAG CUGAGAGUCCAAAGACAGU 6307 2137 1395 GGACAAGGAAGCUGCAGAA UUCUGCAGCUUCCUUGUCC 6308 854 1396 UCUGCUAUUGUACGUACCA UGGUACGUACAAUAGCAGA 6309 2070 1397 AGCUGCUUUAUUCUCCCAU AUGGGAGAAUAAAGCAGCU 6310 545 1398 AGGGUACGAGCUGCUAUGU ACAUAGCAGCUCGUACCCU 6311 1640 1399 GAAGACAUCACUGAGCCUG CAGGCUCAGUGAUGUCUUC 6312 2012 1400 CGGGAUGUUCACAACCGAA UUCGGUUGUGAACAUCCCG 6313 1684 1401 CAGCCGACACCAAGAAGCA UGCUUCUUGGUGUCGGCUG 6314 2017 1402 UGUUCACAACCGAAUUGUU AACAAUUCGGUUGUGAACA 6315 2307 1403 GCUCUCUCUUCAGAACAGA UCUGUUCUGAAGAGAGAGC 6316 844 1404 UCAGAUGGUGUCUGCUAUU AAUAGCAGACACCAUCUGA 6317 405 1405 UGAGUGGUAAAGGCAAUCC GGAUUGCCUUUACCACUCA 6318 379 1406 UGGUGCCACUACCACAGCU AGCUGUGGUAGUGGCACCA 6319 1825 1407 UUGUCCCGCAAAUCAUGCA UGCAUGAUUUGCGGGACAA 6320 2495 1408 CACCCUGGUGCUGACUAUC GAUAGUCAGCACCAGGGUG 6321 629 1409 AAUGUCCAGCGUUUGGCUG CAGCCAAACGCUGGACAUU 6322 2561 1410 GGGCUGCCUCCAGGUGACA UGUCACCUGGAGGCAGCCC 6323 2192 1411 GAGUUACUUCACUCUAGGA UCCUAGAGUGAAGUAACUC 6324 1809 1412 UUCGAAAUCUUGCCCUUUG CAAAGGGCAAGAUUUCGAA 6325 1596 1413 GUAUAGAGGCUCUUGUGCG CGCACAAGAGCCUCUAUAC 6326 2298 1414 AGCUGACCAGCUCUCUCUU AAGAGAGAGCUGGUCAGCU 6327 858 1415 CUAUUGUACGUACCAUGCA UGCAUGGUACGUACAAUAG 6328 524 1416 UAUGCAAUGACUCGAGCUC GAGCUCGAGUCAUUGCAUA 6329 2542 1417 UGCCCAGGACCUCAUGGAU AUCCAUGAGGUCCUGGGCA 6330 498 1418 AACAAGUAGCUGAUAUUGA UCAAUAUCAGCUACUUGUU 6331 414 1419 AAGGCAAUCCUGAGGAAGA UCUUCCUCAGGAUUGCCUU 6332 1570 1420 CAAGAUGAUGGUCUGCCAA UUGGCAGACCAUCAUCUUG 6333 1030 1421 UGCCAUUACAACUCUCCAC GUGGAGAGUUGUAAUGGCA 6334 3087 1422 AUGUAUGGGUAGGGUAAAU AUUUACCCUACCCAUACAU 6335 1664 1423 UGUGCUCUUCGUCAUCUGA UCAGAUGACGAAGAGCACA 6336 1790 1424 AAGGCUACUGUUGGAUUGA UCAAUCCAACAGUAGCCUU 6337 1615 1425 UACUGUCCUUCGGGCUGGU ACCAGCCCGAAGGACAGUA 6338 774 1426 AUAAGGCUGCAGUUAUGGU ACCAUAACUGCAGCCUUAU 6339 1672 1427 UCGUCAUCUGACCAGCCGA UCGGCUGGUCAGAUGACGA 6340 3171 1428 GUUGUAACCUGCUGUGAUA UAUCACAGCAGGUUACAAC 6341 2271 1429 AAGAUUACAAGAAACGGCU AGCCGUUUCUUGUAAUCUU 6342 1183 1430 UUAUGGCAACCAAGAAAGC GCUUUCUUGGUUGCCAUAA 6343 2512 1431 UCCAGUUGAUGGGCUGCCA UGGCAGCCCAUCAACUGGA 6344 1931 1432 GGGACACAGCAGCAAUUUG CAAAUUGCUGCUGUGUCCC 6345 2468 1433 AUGAUGGAACAUGAGAUGG CCAUCUCAUGUUCCAUCAU 6346 3077 1434 UAUUUGGGAUAUGUAUGGG CCCAUACAUAUCCCAAAUA 6347 2069 1435 CAGCUGCUUUAUUCUCCCA UGGGAGAAUAAAGCAGCUG 6348 272 1436 GCUACUCAAGCUGAUUUGA UCAAAUCAGCUUGAGUAGC 6349 564 1437 UCCCUGAGACAUUAGAUGA UCAUCUAAUGUCUCAGGGA 6350 437 1438 GUGGAUACCUCCCAAGUCC GGACUUGGGAGGUAUCCAC 6351 2206 1439 UAGGAAUGAAGGUGUGGCG CGCCACACCUUCAUUCCUA 6352 2187 1440 UGACAGAGUUACUUCACUC GAGUGAAGUAACUCUGUCA 6353 325 1441 AGCGGCUGUUAGUCACUGG CCAGUGACUAACAGCCGCU 6354 3222 1442 AUGGUUCAGAAUUAAACUU AAGUUUAAUUCUGAACCAU 6355 2024 1443 AACCGAAUUGUUAUCAGAG CUCUGAUAACAAUUCGGUU 6356 1858 1444 GGGUGCCAUUCCACGACUA UAGUCGUGGAAUGGCACCC 6357 1574 1445 AUGAUGGUCUGCCAAGUGG CCACUUGGCAGACCAUCAU 6358 1896 1446 CACAUCAGGAUACCCAGCG CGCUGGGUAUCCUGAUGUG 6359 2207 1447 AGGAAUGAAGGUGUGGCGA UCGCCACACCUUCAUUCCU 6360 1300 1448 GAAGGUGCUAUCUGUCUGC GCAGACAGAUAGCACCUUC 6361 1192 1449 CCAAGAAAGCAAGCUCAUC GAUGAGCUUGCUUUCUUGG 6362 551 1450 CGAGCUGCUAUGUUCCCUG CAGGGAACAUAGCAGCUCG 6363 2498 1451 CCUGGUGCUGACUAUCCAG CUGGAUAGUCAGCACCAGG 6364 1305 1452 UGCUAUCUGUCUGCUCUAG CUAGAGCAGACAGAUAGCA 6365 1337 1453 AUUGUAGAAGCUGGUGGAA UUCCACCAGCUUCUACAAU 6366

For each oligonucleotide of a target sequence, the two individual, complementary strands of the siNA were synthesized separately using solid phase synthesis, then purified separately by reversed phase solid phase extraction (SPE). The complementary strands were annealed to form the double strand (duplex) and delivered in the desired concentration and buffer of choice.

Briefly, the single strand oligonucleotides were synthesized using phosphoramidite chemistry on an automated solid-phase synthesizer, using procedures as are generally known in the art (see for example U.S. application Ser. No. 12/064,014). A synthesis column was packed with solid support derivatized with the first nucleoside residue (natural or chemically modified). Synthesis was initiated by detritylation of the acid labile 5′-O-dimethoxytrityl group to release the 5′-hydroxyl. A suitably protected phosphoramidite and a suitable activator in acetonitrile were delivered simultaneously to the synthesis column resulting in coupling of the amidite to the 5′-hydroxyl. The column was then washed with a solvent, such as acetonitrile. An oxidizing solution, such as an iodine solution was pumped through the column to oxidize the phosphite triester linkage P(III) to its phosphotriester P(V) analog. Unreacted 5′-hydroxyl groups were capped using reagents such as acetic anhydride in the presence of 2,6-lutidine and N-methylimidazole. The elongation cycle was resumed with the detritylation step for the next phosphoramidite incorporation. This process was repeated until the desired sequence was synthesized. The synthesis concluded with the final 5′-terminus protecting group (trityl or 5′-O-dimethoxytrityl).

Upon completion of the synthesis, the solid-support and associated oligonucleotide were dried under argon pressure or vacuum. Aqueous base was added and the mixture was heated to effect cleavage of the succinyl linkage, removal of the cyanoethyl phosphate protecting group, and deprotection of the exocyclic amine protection.

The following process was performed on single strands that do not contain ribonucleotides. After treating the solid support with the aqueous base, the mixture was filtered to separate the solid support from the deprotected crude synthesis material. The solid support was then rinsed with water, which is combined with the filtrate. The resultant basic solution allows for retention of the 5′-O-dimethoxytrityl group to remain on the 5′ terminal position (trityl-on).

For single strands that contain ribonucleotides, the following process was performed. After treating the solid support with the aqueous base, the mixture was filtered to separate the solid support from the deprotected crude synthesis material. The solid support was then rinsed with dimethylsulfoxide (DMSO), which was combined with the filtrate. Fluoride reagent, such as triethylamine trihydrofluoride, was added to the mixture, and the solution was heated. The reaction was quenched with suitable buffer to provide a solution of crude single strand with the 5′-O-dimethoxytrityl group on the final 5′ terminal position.

The trityl-on solution of each crude single strand was purified using chromatographic purification, such as SPE RPC purification. The hydrophobic nature of the trityl group permits stronger retention of the desired full-length oligo than the non-tritylated truncated failure sequences. The failure sequences were selectively washed from the resin with a suitable solvent, such as low percent acetonitrile. Retained oligonucleotides were then detritylated on-column with trifluoroacetic acid to remove the acid-labile trityl group. Residual acid was washed from the column, a salt exchange was performed, and a final desalting of the material commenced. The full-length oligo was recovered in a purified form with an aqueous-organic solvent. The final product was then analyzed for purity (HPLC), identity (Maldi-TOF MS), and yield (UV A₂₆₀). The oligos were dried via lyophilization or vacuum condensation.

Annealing:

Based on the analysis of the product, the dried oligos were dissolved in appropriate buffers followed by mixing equal molar amounts (calculated using the theoretical extinction coefficient) of the sense and antisense oligonucleotide strands. The solution was then analyzed for purity of duplex by chromatographic methods and desired final concentration. If the analysis indicated an excess of either strand, then the additional non-excess strand was titrated until duplexing was complete. When analysis indicated that the target product purity has been achieved the material was delivered and ready for use.

Below is a table showing various modified siNAs synthesized using this protocol or that can be synthesized using this protocol or using methods known in the art.

TABLE 1c CTNNB1 siNA Strands Synthesized (Antisense sequences are readily identified as being complementary to the target sequence shown). Target SEQ SEQ Site ID ID R Number (human) NO: 1 Target Sequence Modified Sequence NO: 2 R-008247452-000C 535 1 UCGAGCUCAGAGGGUACGA B ucGAGcucAGAGGGuAcGATT B 1454 R-008247452-000C 535 1 UCGAGCUCAGAGGGUACGA UCGuAcccucuGAGcucGAUU 1455 R-008247449-000W 1601 2 GAGGCUCUUGUGCGUACUG B GAGGcucuuGuGcGuAcuGTT B 1456 R-008247449-000W 1601 2 GAGGCUCUUGUGCGUACUG CAGuAcGcAcAAGAGccucUU 1457 R-008247575-000Y 1709 3 GCCCAGAAUGCAGUUCGCC B GcccAGAAuGcAGuucGccTT B 1458 R-008247575-000Y 1709 3 GCCCAGAAUGCAGUUCGCC GGCGAAcuGcAuucuGGGcUU 1459 R-008247572-000X 536 4 CGAGCUCAGAGGGUACGAG B cGAGcucAGAGGGuAcGAGTT B 1460 R-008247572-000X 536 4 CGAGCUCAGAGGGUACGAG CUCGuAcccucuGAGcucGUU 1461 R-008247569-000R 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUU 1463 R-008247569-000R 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAATT B 1462 R-008247446-000V 853 6 GUCUGCUAUUGUACGUACC B GucuGcuAuuGuAcGuAccTT B 1464 R-008247446-000V 853 6 GUCUGCUAUUGUACGUACC GGUAcGuAcAAuAGcAGAcUU 1465 R-008247566-000P 1143 7 AAUUCUUGGCUAUUACGAC GUCGuAAuAGccAAGAAuuUU 1467 R-008247566-000P 1143 7 AAUUCUUGGCUAUUACGAC B AAuucuuGGcuAuuAcGAcTT B 1466 R-008247563-000N 2014 8 GGAUGUUCACAACCGAAUU B GGAuGuucAcAAccGAAuuTT B 1468 R-008247563-000N 2014 8 GGAUGUUCACAACCGAAUU AAUucGGuuGuGAAcAuccUU 1469 R-008247560-000M 520 9 ACAGUAUGCAAUGACUCGA B AcAGuAuGcAAuGAcucGATT B 1470 R-008247560-000M 520 9 ACAGUAUGCAAUGACUCGA UCGAGucAuuGcAuAcuGuUU 1471 R-008247443-000U 814 10 AGCUUCCAGACACGCUAUC B AGcuuccAGAcAcGcuAucTT B 1472 R-008247443-000U 814 10 AGCUUCCAGACACGCUAUC GAUAGcGuGucuGGAAGcuUU 1473 R-008247440-000T 852 11 UGUCUGCUAUUGUACGUAC GUAcGuAcAAuAGcAGAcAUU 1475 R-008247440-000T 852 11 UGUCUGCUAUUGUACGUAC B uGucuGcuAuuGuAcGuAcTT B 1474 R-008247557-000F 1796 12 ACUGUUGGAUUGAUUCGAA UUCGAAucAAuccAAcAGuUU 1477 R-008247557-000F 1796 12 ACUGUUGGAUUGAUUCGAA B AcuGuuGGAuuGAuucGAATT B 1476 R-008247437-000L 1901 13 CAGGAUACCCAGCGCCGUA UACGGcGcuGGGuAuccuGUU 1479 R-008247437-000L 1901 13 CAGGAUACCCAGCGCCGUA B cAGGAuAcccAGcGccGuATT B 1478 R-008247554-000E 822 14 GACACGCUAUCAUGCGUUC B GAcAcGcuAucAuGcGuucTT B 1480 R-008247554-000E 822 14 GACACGCUAUCAUGCGUUC GAAcGcAuGAuAGcGuGucUU 1481 R-008247551-000D 1795 15 UACUGUUGGAUUGAUUCGA UCGAAucAAuccAAcAGuAUU 1483 R-008247551-000D 1795 15 UACUGUUGGAUUGAUUCGA B uAcuGuuGGAuuGAuucGATT B 1482 R-008247548-000X 1145 16 UUCUUGGCUAUUACGACAG B uucuuGGcuAuuAcGAcAGTT B 1484 R-008247548-000X 1145 16 UUCUUGGCUAUUACGACAG CUGucGuAAuAGccAAGAAUU 1485 R-008247545-000W 823 17 ACACGCUAUCAUGCGUUCU B AcAcGcuAucAuGcGuucuTT B 1486 R-008247545-000W 823 17 ACACGCUAUCAUGCGUUCU AGAAcGcAuGAuAGcGuGuUU 1487 R-008247434-000K 820 18 CAGACACGCUAUCAUGCGU B cAGAcAcGcuAucAuGcGuTT B 1488 R-008247434-000K 820 18 CAGACACGCUAUCAUGCGU ACGcAuGAuAGcGuGucuGUU 1489 R-008247431-000J 1798 19 UGUUGGAUUGAUUCGAAAU B uGuuGGAuuGAuucGAAAuTT B 1490 R-008247431-000J 1798 19 UGUUGGAUUGAUUCGAAAU AUUucGAAucAAuccAAcAUU 1491 R-008247428-000C 1380 20 CAGAUCCAAGUCAACGUCU B cAGAuccAAGucAAcGucuTT B 1492 R-008247428-000C 1380 20 CAGAUCCAAGUCAACGUCU AGAcGuuGAcuuGGAucuGUU 1493 R-008247542-000V 1602 21 AGGCUCUUGUGCGUACUGU B AGGcucuuGuGcGuAcuGuTT B 1494 R-008247542-000V 1602 21 AGGCUCUUGUGCGUACUGU ACAGuAcGcAcAAGAGccuUU 1495 R-008247539-000N 1612 22 GCGUACUGUCCUUCGGGCU B GcGuAcuGuccuucGGGcuTT B 1496 R-008247539-000N 1612 22 GCGUACUGUCCUUCGGGCU AGCccGAAGGAcAGuAcGcUU 1497 R-008247425-000B 626 23 ACUAAUGUCCAGCGUUUGG B AcuAAuGuccAGcGuuuGGTT B 1498 R-008247425-000B 626 23 ACUAAUGUCCAGCGUUUGG CCAAAcGcuGGAcAuuAGuUU 1499 R-008247536-000M 2000 24 CACAUCCUAGCUCGGGAUG B cAcAuccuAGcucGGGAuGTT B 1500 R-008247536-000M 2000 24 CACAUCCUAGCUCGGGAUG CAUcccGAGcuAGGAuGuGUU 1501 R-008247422-000A 2665 25 GUUGCUGAGAGGGCUCGAG B GuuGcuGAGAGGGcucGAGTT B 1502 R-008247422-000A 2665 25 GUUGCUGAGAGGGCUCGAG CUCGAGcccucucAGcAAcUU 1503 R-008247533-000L 1676 26 CAUCUGACCAGCCGACACC GGUGucGGcuGGucAGAuGUU 1505 R-008247533-000L 1676 26 CAUCUGACCAGCCGACACC B cAucuGAccAGccGAcAccTT B 1504 R-008247530-000K 1611 27 UGCGUACUGUCCUUCGGGC B uGcGuAcuGuccuucGGGcTT B 1506 R-008247530-000K 1611 27 UGCGUACUGUCCUUCGGGC GCCcGAAGGAcAGuAcGcAUU 1507 R-008247419-000U 2269 28 ACAAGAUUACAAGAAACGG B AcAAGAuuAcAAGAAAcGGTT B 1508 R-008247419-000U 2269 28 ACAAGAUUACAAGAAACGG CCGuuucuuGuAAucuuGuUU 1509 R-008247527-000D 674 29 GUUGUAAACUUGAUUAACU B GuuGuAAAcuuGAuuAAcuTT B 1510 R-008247527-000D 674 29 GUUGUAAACUUGAUUAACU AGUuAAucAAGuuuAcAAcUU 1511 R-008247602-000K 678 30 UAAACUUGAUUAACUAUCA B uAAAcuuGAuuAAcuAucATT B 1512 R-008247602-000K 678 30 UAAACUUGAUUAACUAUCA UGAuAGuuAAucAAGuuuAUU 1513 R-008247599-000T 1245 31 AUAUAAUGAGGACCUAUAC B AuAuAAuGAGGAccuAuAcTT B 1514 R-008247599-000T 1245 31 AUAUAAUGAGGACCUAUAC GUAuAGGuccucAuuAuAuUU 1515 R-008247596-000S 679 32 AAACUUGAUUAACUAUCAA B AAAcuuGAuuAAcuAucAATT B 1516 R-008247596-000S 679 32 AAACUUGAUUAACUAUCAA UUGAuAGuuAAucAAGuuuUU 1517 R-008247593-000R 1970 33 GAAAUAGUUGAAGGUUGUA B GAAAuAGuuGAAGGuuGuATT B 1518 R-008247593-000R 1970 33 GAAAUAGUUGAAGGUUGUA UACAAccuucAAcuAuuucUU 1519 R-008247590-000P 1247 34 AUAAUGAGGACCUAUACUU AAGuAuAGGuccucAuuAuUU 1521 R-008247590-000P 1247 34 AUAAUGAGGACCUAUACUU B AuAAuGAGGAccuAuAcuuTT B 1520 R-008247464-000M 1140 35 UUAAAUUCUUGGCUAUUAC B uuAAAuucuuGGcuAuuAcTT B 1522 R-008247464-000M 1140 35 UUAAAUUCUUGGCUAUUAC GUAAuAGccAAGAAuuuAAUU 1523 R-008247587-000H 676 36 UGUAAACUUGAUUAACUAU B uGuAAAcuuGAuuAAcuAuTT B 1524 R-008247587-000H 676 36 UGUAAACUUGAUUAACUAU AUAGuuAAucAAGuuuAcAUU 1525 R-008247461-000L 677 37 GUAAACUUGAUUAACUAUC GAUAGuuAAucAAGuuuAcUU 1527 R-008247461-000L 677 37 GUAAACUUGAUUAACUAUC B GuAAAcuuGAuuAAcuAucTT B 1526 R-008247458-000E 675 38 UUGUAAACUUGAUUAACUA B uuGuAAAcuuGAuuAAcuATT B 1528 R-008247458-000E 675 38 UUGUAAACUUGAUUAACUA UAGuuAAucAAGuuuAcAAUU 1529 R-008247584-000G 1235 39 GCUUUAGUAAAUAUAAUGA B GcuuuAGuAAAuAuAAuGATT B 1530 R-008247584-000G 1235 39 GCUUUAGUAAAUAUAAUGA UCAuuAuAuuuAcuAAAGcUU 1531 R-008247581-000F 2488 40 UGGCCACCACCCUGGUGCU B uGGccAccAcccuGGuGcuTT B 1532 R-008247581-000F 2488 40 UGGCCACCACCCUGGUGCU AGCAccAGGGuGGuGGccAUU 1533 R-008247578-000Z 1236 41 CUUUAGUAAAUAUAAUGAG B cuuuAGuAAAuAuAAuGAGTT B 1534 R-008247578-000Z 1236 41 CUUUAGUAAAUAUAAUGAG CUCAuuAuAuuuAcuAAAGUU 1535 R-008247455-000D 1237 42 UUUAGUAAAUAUAAUGAGG CCUcAuuAuAuuuAcuAAAUU 1537 R-008247455-000D 1237 42 UUUAGUAAAUAUAAUGAGG B uuuAGuAAAuAuAAuGAGGTT B 1536 R-008042883-001A 2555 43 GUAAAUCGUCCUUUAGGUA B GuAAAucGuccuuuAGGuATT B 1538 R-008042883-001A 2555 43 GUAAAUCGUCCUUUAGGUA UACcuAAAGGAcGAuuuAcUU 1539 R-008308583-000P 1545 44 ACCUCACUUGCAAUAAUUA B AccucAcuuGcAAuAAuuATT B 1540 R-008308583-000P 1545 44 ACCUCACUUGCAAUAAUUA UAAuuAuuGcAAGuGAGGuUU 1541 R-008308520-000J 2050 45 UACCAUUCCAUUGUUUGUG B uAccAuuccAuuGuuuGuGTT B 1542 R-008308520-000J 2050 45 UACCAUUCCAUUGUUUGUG CACAAAcAAuGGAAuGGuAUU 1543 R-008308622-000L 2097 46 UCCAAAGAGUAGCUGCAGG CCUGcAGcuAcucuuuGGAUU 1545 R-008308622-000L 2097 46 UCCAAAGAGUAGCUGCAGG B uccAAAGAGuAGcuGcAGGTT B 1544 R-008308652-000N 2510 47 UAUCCAGUUGAUGGGCUGC B uAuccAGuuGAuGGGcuGcTT B 1546 R-008308652-000N 2510 47 UAUCCAGUUGAUGGGCUGC GCAGcccAucAAcuGGAuAUU 1547 R-008308718-000F 871 48 CAUGCAGAAUACAAAUGAU AUCAuuuGuAuucuGcAuGUU 1549 R-008308718-000F 871 48 CAUGCAGAAUACAAAUGAU B cAuGcAGAAuAcAAAuGAuTT B 1548 R-008308694-000A 2098 49 CCAAAGAGUAGCUGCAGGG CCCuGcAGcuAcucuuuGGUU 1551 R-008308694-000A 2098 49 CCAAAGAGUAGCUGCAGGG B ccAAAGAGuAGcuGcAGGGTT B 1550 R-008308517-000C 1767 50 CACCAUCCCACUGGCCUCU B cAccAucccAcuGGccucuTT B 1552 R-008308517-000C 1767 50 CACCAUCCCACUGGCCUCU AGAGGccAGuGGGAuGGuGUU 1553 R-008308619-000E 869 51 ACCAUGCAGAAUACAAAUG B AccAuGcAGAAuAcAAAuGTT B 1554 R-008308619-000E 869 51 ACCAUGCAGAAUACAAAUG CAUuuGuAuucuGcAuGGuUU 1555 R-008308514-000B 1641 52 AAGACAUCACUGAGCCUGC B AAGAcAucAcuGAGccuGcTT B 1556 R-008308514-000B 1641 52 AAGACAUCACUGAGCCUGC GCAGGcucAGuGAuGucuuUU 1557 R-008308616-000D 2582 53 AAUCAGCUGGCCUGGUUUG B AAucAGcuGGccuGGuuuGTT B 1558 R-008308616-000D 2582 53 AAUCAGCUGGCCUGGUUUG CAAAccAGGccAGcuGAuuUU 1559 R-008308580-000N 1544 54 AACCUCACUUGCAAUAAUU AAUuAuuGcAAGuGAGGuuUU 1561 R-008308580-000N 1544 54 AACCUCACUUGCAAUAAUU B AAccucAcuuGcAAuAAuuTT B 1560 R-008308736-000Y 2550 55 ACCUCAUGGAUGGGCUGCC B AccucAuGGAuGGGcuGccTT B 1562 R-008308736-000Y 2550 55 ACCUCAUGGAUGGGCUGCC GGCAGcccAuccAuGAGGuUU 1563 R-008308613-000C 2051 56 ACCAUUCCAUUGUUUGUGC GCAcAAAcAAuGGAAuGGuUU 1565 R-008308613-000C 2051 56 ACCAUUCCAUUGUUUGUGC B AccAuuccAuuGuuuGuGcTT B 1564 R-008308577-000G 870 57 CCAUGCAGAAUACAAAUGA UCAuuuGuAuucuGcAuGGUU 1567 R-008308577-000G 870 57 CCAUGCAGAAUACAAAUGA B ccAuGcAGAAuAcAAAuGATT B 1566 R-008308691-000Z 1670 58 CUUCGUCAUCUGACCAGCC B cuucGucAucuGAccAGccTT B 1568 R-008308691-000Z 1670 58 CUUCGUCAUCUGACCAGCC GGCuGGucAGAuGAcGAAGUU 1569 R-008308649-000G 2122 59 CUGUGAACUUGCUCAGGAC B cuGuGAAcuuGcucAGGAcTT B 1570 R-008308649-000G 2122 59 CUGUGAACUUGCUCAGGAC GUCcuGAGcAAGuucAcAGUU 1571 R-008308553-000M 1642 60 AGACAUCACUGAGCCUGCC B AGAcAucAcuGAGccuGccTT B 1572 R-008308553-000M 1642 60 AGACAUCACUGAGCCUGCC GGCAGGcucAGuGAuGucuUU 1573 R-008308574-000F 2324 61 GAGCCAAUGGCUUGGAAUG B GAGccAAuGGcuuGGAAuGTT B 1574 R-008308574-000F 2324 61 GAGCCAAUGGCUUGGAAUG CAUuccAAGccAuuGGcucUU 1575 R-008308688-000T 1649 62 ACUGAGCCUGCCAUCUGUG B AcuGAGccuGccAucuGuGTT B 1576 R-008308688-000T 1649 62 ACUGAGCCUGCCAUCUGUG CACAGAuGGcAGGcucAGuUU 1577 R-008308550-000L 2159 63 AUUGAAGCUGAGGGAGCCA B AuuGAAGcuGAGGGAGccATT B 1578 R-008308550-000L 2159 63 AUUGAAGCUGAGGGAGCCA UGGcucccucAGcuucAAuUU 1579 R-008308511-000A 785 64 GUUAUGGUCCAUCAGCUUU B GuuAuGGuccAucAGcuuuTT B 1580 R-008308511-000A 785 64 GUUAUGGUCCAUCAGCUUU AAAGcuGAuGGAccAuAAcUU 1581 R-008308685-000S 1511 65 AAUGUGGUCACCUGUGCAG B AAuGuGGucAccuGuGcAGTT B 1582 R-008308685-000S 1511 65 AAUGUGGUCACCUGUGCAG CUGcAcAGGuGAccAcAuuUU 1583 R-008308610-000B 2586 66 AGCUGGCCUGGUUUGAUAC B AGcuGGccuGGuuuGAuAcTT B 1584 R-008308610-000B 2586 66 AGCUGGCCUGGUUUGAUAC GUAucAAAccAGGccAGcuUU 1585 R-008308571-000E 642 67 UGGCUGAACCAUCACAGAU B uGGcuGAAccAucAcAGAuTT B 1586 R-008308571-000E 642 67 UGGCUGAACCAUCACAGAU AUCuGuGAuGGuucAGccAUU 1587 R-008308715-000E 1763 68 CACCCACCAUCCCACUGGC B cAcccAccAucccAcuGGcTT B 1588 R-008308715-000E 1763 68 CACCCACCAUCCCACUGGC GCCAGuGGGAuGGuGGGuGUU 1589 R-008308682-000R 2328 69 CAAUGGCUUGGAAUGAGAC GUCucAuuccAAGccAuuGUU 1591 R-008308682-000R 2328 69 CAAUGGCUUGGAAUGAGAC B cAAuGGcuuGGAAuGAGAcTT B 1590 R-008308646-000F 1280 70 UGGACCACAAGCAGAGUGC GCAcucuGcuuGuGGuccAUU 1593 R-008308646-000F 1280 70 UGGACCACAAGCAGAGUGC B uGGAccAcAAGcAGAGuGcTT B 1592 R-008308508-000U 2052 71 CCAUUCCAUUGUUUGUGCA B ccAuuccAuuGuuuGuGcATT B 1594 R-008308508-000U 2052 71 CCAUUCCAUUGUUUGUGCA UGCAcAAAcAAuGGAAuGGUU 1595 R-008308547-000E 2546 72 CAGGACCUCAUGGAUGGGC GCCcAuccAuGAGGuccuGUU 1597 R-008308547-000E 2546 72 CAGGACCUCAUGGAUGGGC B cAGGAccucAuGGAuGGGcTT B 1596 R-008308505-000T 2124 73 GUGAACUUGCUCAGGACAA UUGuccuGAGcAAGuucAcUU 1599 R-008308505-000T 2124 73 GUGAACUUGCUCAGGACAA B GuGAAcuuGcucAGGAcAATT B 1598 R-008308733-000X 2545 74 CCAGGACCUCAUGGAUGGG CCCAuccAuGAGGuccuGGUU 1601 R-008308733-000X 2545 74 CCAGGACCUCAUGGAUGGG B ccAGGAccucAuGGAuGGGTT B 1600 R-008308544-000D 643 75 GGCUGAACCAUCACAGAUG B GGcuGAAccAucAcAGAuGTT B 1602 R-008308544-000D 643 75 GGCUGAACCAUCACAGAUG CAUcuGuGAuGGuucAGccUU 1603 R-008308643-000E 2501 76 GGUGCUGACUAUCCAGUUG B GGuGcuGAcuAuccAGuuGTT B 1604 R-008308643-000E 2501 76 GGUGCUGACUAUCCAGUUG CAAcuGGAuAGucAGcAccUU 1605 R-008308712-000D 2330 77 AUGGCUUGGAAUGAGACUG B AuGGcuuGGAAuGAGAcuGTT B 1606 R-008308712-000D 2330 77 AUGGCUUGGAAUGAGACUG CAGucucAuuccAAGccAuUU 1607 R-008308568-000Y 1638 78 GGGAAGACAUCACUGAGCC GGCucAGuGAuGucuucccUU 1609 R-008308568-000Y 1638 78 GGGAAGACAUCACUGAGCC B GGGAAGAcAucAcuGAGccTT B 1608 R-008308640-000D 1630 79 UGGUGACAGGGAAGACAUC B uGGuGAcAGGGAAGAcAucTT B 1610 R-008308640-000D 1630 79 UGGUGACAGGGAAGACAUC GAUGucuucccuGucAccAUU 1611 R-008308541-000C 616 80 UGCUCAUCCCACUAAUGUC GACAuuAGuGGGAuGAGcAUU 1613 R-008308541-000C 616 80 UGCUCAUCCCACUAAUGUC B uGcucAucccAcuAAuGucTT B 1612 R-008308679-000J 2509 81 CUAUCCAGUUGAUGGGCUG B cuAuccAGuuGAuGGGcuGTT B 1614 R-008308679-000J 2509 81 CUAUCCAGUUGAUGGGCUG CAGcccAucAAcuGGAuAGUU 1615 R-008308565-000X 2548 82 GGACCUCAUGGAUGGGCUG B GGAccucAuGGAuGGGcuGTT B 1616 R-008308565-000X 2548 82 GGACCUCAUGGAUGGGCUG CAGcccAuccAuGAGGuccUU 1617 R-008308538-000W 1773 83 CCCACUGGCCUCUGAUAAA UUUAucAGAGGccAGuGGGUU 1619 R-008308538-000W 1773 83 CCCACUGGCCUCUGAUAAA B cccAcuGGccucuGAuAAATT B 1618 R-008308535-000V 2247 84 UCCGAAUGUCUGAGGACAA UUGuccucAGAcAuucGGAUU 1621 R-008308535-000V 2247 84 UCCGAAUGUCUGAGGACAA B uccGAAuGucuGAGGAcAATT B 1620 R-008308637-000X 2331 85 UGGCUUGGAAUGAGACUGC B uGGcuuGGAAuGAGAcuGcTT B 1622 R-008308637-000X 2331 85 UGGCUUGGAAUGAGACUGC GCAGucucAuuccAAGccAUU 1623 R-008309111-000F 1498 86 UUCAGAUGAUAUAAAUGUG CACAuuuAuAucAucuGAAUU 1625 R-008309111-000F 1498 86 UUCAGAUGAUAUAAAUGUG B uucAGAuGAuAuAAAuGuGTT B 1624 R-008309108-000Z 2267 87 CCACAAGAUUACAAGAAAC B ccAcAAGAuuAcAAGAAAcTT B 1626 R-008309108-000Z 2267 87 CCACAAGAUUACAAGAAAC GUUucuuGuAAucuuGuGGUU 1627 R-008308994-000E 1547 88 CUCACUUGCAAUAAUUAUA UAUAAuuAuuGcAAGuGAGUU 1629 R-008308994-000E 1547 88 CUCACUUGCAAUAAUUAUA B cucAcuuGcAAuAAuuAuATT B 1628 R-008309075-000K 1549 89 CACUUGCAAUAAUUAUAAG CUUAuAAuuAuuGcAAGuGUU 1631 R-008309075-000K 1549 89 CACUUGCAAUAAUUAUAAG B cAcuuGcAAuAAuuAuAAGTT B 1630 R-008309045-000H 867 90 GUACCAUGCAGAAUACAAA UUUGuAuucuGcAuGGuAcUU 1633 R-008309045-000H 867 90 GUACCAUGCAGAAUACAAA B GuAccAuGcAGAAuAcAAATT B 1632 R-008309072-000J 1390 91 UCAACGUCUUGUUCAGAAC B ucAAcGucuuGuucAGAAcTT B 1634 R-008309072-000J 1390 91 UCAACGUCUUGUUCAGAAC GUUcuGAAcAAGAcGuuGAUU 1635 R-008309027-000R 593 92 AUCCCAUCUACACAGUUUG CAAAcuGuGuAGAuGGGAuUU 1637 R-008309027-000R 593 92 AUCCCAUCUACACAGUUUG B AucccAucuAcAcAGuuuGTT B 1636 R-008309009-000Y 274 93 UACUCAAGCUGAUUUGAUG CAUcAAAucAGcuuGAGuAUU 1639 R-008309009-000Y 274 93 UACUCAAGCUGAUUUGAUG B uAcucAAGcuGAuuuGAuGTT B 1638 R-008309024-000P 759 94 ACCAGGUGGUGGUUAAUAA B AccAGGuGGuGGuuAAuAATT B 1640 R-008309024-000P 759 94 ACCAGGUGGUGGUUAAUAA UUAuuAAccAccAccuGGuUU 1641 R-008309093-000C 1439 95 GCUGCAACUAAACAGGAAG B GcuGcAAcuAAAcAGGAAGTT B 1642 R-008309093-000C 1439 95 GCUGCAACUAAACAGGAAG CUUccuGuuuAGuuGcAGcUU 1643 R-008309069-000C 1801 96 UGGAUUGAUUCGAAAUCUU B uGGAuuGAuucGAAAucuuTT B 1644 R-008309069-000C 1801 96 UGGAUUGAUUCGAAAUCUU AAGAuuucGAAucAAuccAUU 1645 R-008309021-000N 1500 97 CAGAUGAUAUAAAUGUGGU B cAGAuGAuAuAAAuGuGGuTT B 1646 R-008309021-000N 1500 97 CAGAUGAUAUAAAUGUGGU ACCAcAuuuAuAucAucuGUU 1647 R-008309066-000B 848 98 AUGGUGUCUGCUAUUGUAC B AuGGuGucuGcuAuuGuAcTT B 1648 R-008309066-000B 848 98 AUGGUGUCUGCUAUUGUAC GUAcAAuAGcAGAcAccAuUU 1649 R-008309105-000Y 2268 99 CACAAGAUUACAAGAAACG CGUuucuuGuAAucuuGuGUU 1651 R-008309105-000Y 2268 99 CACAAGAUUACAAGAAACG B cAcAAGAuuAcAAGAAAcGTT B 1650 R-008309042-000G 882 100 CAAAUGAUGUAGAAACAGC GCUGuuucuAcAucAuuuGUU 1653 R-008309042-000G 882 100 CAAAUGAUGUAGAAACAGC B cAAAuGAuGuAGAAAcAGcTT B 1652 R-008309063-000A 2266 101 GCCACAAGAUUACAAGAAA UUUcuuGuAAucuuGuGGcUU 1655 R-008309063-000A 2266 101 GCCACAAGAUUACAAGAAA B GccAcAAGAuuAcAAGAAATT B 1654 R-008309018-000G 880 102 UACAAAUGAUGUAGAAACA B uAcAAAuGAuGuAGAAAcATT B 1656 R-008309018-000G 880 102 UACAAAUGAUGUAGAAACA UGUuucuAcAucAuuuGuAUU 1657 R-008309039-000A 1810 103 UCGAAAUCUUGCCCUUUGU ACAAAGGGcAAGAuuucGAUU 1659 R-008309039-000A 1810 103 UCGAAAUCUUGCCCUUUGU B ucGAAAucuuGcccuuuGuTT B 1658 R-008309015-000F 685 104 GAUUAACUAUCAAGAUGAU B GAuuAAcuAucAAGAuGAuTT B 1660 R-008309015-000F 685 104 GAUUAACUAUCAAGAUGAU AUCAucuuGAuAGuuAAucUU 1661 R-008309060-000Z 1007 105 CCAGUGGAUUCUGUGUUGU ACAAcAcAGAAuccAcuGGUU 1663 R-008309060-000Z 1007 105 CCAGUGGAUUCUGUGUUGU B ccAGuGGAuucuGuGuuGuTT B 1662 R-008309057-000T 1789 106 AAAGGCUACUGUUGGAUUG B AAAGGcuAcuGuuGGAuuGTT B 1664 R-008309057-000T 1789 106 AAAGGCUACUGUUGGAUUG CAAuccAAcAGuAGccuuuUU 1665 R-008309054-000S 499 107 ACAAGUAGCUGAUAUUGAU AUCAAuAucAGcuAcuuGuUU 1667 R-008309054-000S 499 107 ACAAGUAGCUGAUAUUGAU B AcAAGuAGcuGAuAuuGAuTT B 1666 R-008309090-000B 2470 108 GAUGGAACAUGAGAUGGGU B GAuGGAAcAuGAGAuGGGuTT B 1668 R-008309090-000B 2470 108 GAUGGAACAUGAGAUGGGU ACCcAucucAuGuuccAucUU 1669 R-008309051-000R 694 109 UCAAGAUGAUGCAGAACUU B ucAAGAuGAuGcAGAAcuuTT B 1670 R-008309051-000R 694 109 UCAAGAUGAUGCAGAACUU AAGuucuGcAucAucuuGAUU 1671 R-008309036-000Z 278 110 CAAGCUGAUUUGAUGGAGU ACUccAucAAAucAGcuuGUU 1673 R-008309036-000Z 278 110 CAAGCUGAUUUGAUGGAGU B cAAGcuGAuuuGAuGGAGuTT B 1672 R-008309102-000X 1415 111 UGGACUCUCAGGAAUCUUU B uGGAcucucAGGAAucuuuTT B 1674 R-008309102-000X 1415 111 UGGACUCUCAGGAAUCUUU AAAGAuuccuGAGAGuccAUU 1675 R-008308991-000D 2046 112 UAAAUACCAUUCCAUUGUU AACAAuGGAAuGGuAuuuAUU 1677 R-008308991-000D 2046 112 UAAAUACCAUUCCAUUGUU B uAAAuAccAuuccAuuGuuTT B 1676 R-008309006-000X 1057 113 AUUACAUCAAGAAGGAGCU AGCuccuucuuGAuGuAAuUU 1679 R-008309006-000X 1057 113 AUUACAUCAAGAAGGAGCU B AuuAcAucAAGAAGGAGcuTT B 1678 R-008309087-000V 1422 114 UCAGGAAUCUUUCAGAUGC B ucAGGAAucuuucAGAuGcTT B 1680 R-008309087-000V 1422 114 UCAGGAAUCUUUCAGAUGC GCAucuGAAAGAuuccuGAUU 1681 R-008309084-000U 684 115 UGAUUAACUAUCAAGAUGA UCAucuuGAuAGuuAAucAUU 1683 R-008309084-000U 684 115 UGAUUAACUAUCAAGAUGA B uGAuuAAcuAucAAGAuGATT B 1682 R-008309099-000E 2197 116 ACUUCACUCUAGGAAUGAA B AcuucAcucuAGGAAuGAATT B 1684 R-008309099-000E 2197 116 ACUUCACUCUAGGAAUGAA UUCAuuccuAGAGuGAAGuUU 1685 R-008309003-000W 666 117 AACAUGCAGUUGUAAACUU B AAcAuGcAGuuGuAAAcuuTT B 1686 R-008309003-000W 666 117 AACAUGCAGUUGUAAACUU AAGuuuAcAAcuGcAuGuuUU 1687 R-008309012-000E 279 118 AAGCUGAUUUGAUGGAGUU AACuccAucAAAucAGcuuUU 1689 R-008309012-000E 279 118 AAGCUGAUUUGAUGGAGUU B AAGcuGAuuuGAuGGAGuuTT B 1688 R-008309033-000Y 1492 119 UCUGGGUUCAGAUGAUAUA B ucuGGGuucAGAuGAuAuATT B 1690 R-008309033-000Y 1492 119 UCUGGGUUCAGAUGAUAUA UAUAucAucuGAAcccAGAUU 1691 R-008309081-000T 2195 120 UUACUUCACUCUAGGAAUG CAUuccuAGAGuGAAGuAAUU 1693 R-008309081-000T 2195 120 UUACUUCACUCUAGGAAUG B uuAcuucAcucuAGGAAuGTT B 1692 R-008309048-000J 1424 121 AGGAAUCUUUCAGAUGCUG B AGGAAucuuucAGAuGcuGTT B 1694 R-008309048-000J 1424 121 AGGAAUCUUUCAGAUGCUG CAGcAucuGAAAGAuuccuUU 1695 R-008309000-000V 661 122 GCUGAAACAUGCAGUUGUA UACAAcuGcAuGuuucAGcUU 1697 R-008309000-000V 661 122 GCUGAAACAUGCAGUUGUA B GcuGAAAcAuGcAGuuGuATT B 1696 R-008309078-000L 1882 123 GUUGCUUGUUCGUGCACAU B GuuGcuuGuucGuGcAcAuTT B 1698 R-008309078-000L 1882 123 GUUGCUUGUUCGUGCACAU AUGuGcAcGAAcAAGcAAcUU 1699 R-008309096-000D 1966 124 GGAAGAAAUAGUUGAAGGU B GGAAGAAAuAGuuGAAGGuTT B 1700 R-008309096-000D 1966 124 GGAAGAAAUAGUUGAAGGU ACCuucAAcuAuuucuuccUU 1701 R-008308997-000F 2259 125 AGGACAAGCCACAAGAUUA B AGGAcAAGccAcAAGAuuATT B 1702 R-008308997-000F 2259 125 AGGACAAGCCACAAGAUUA UAAucuuGuGGcuuGuccuUU 1703 R-008309030-000X 832 126 CAUGCGUUCUCCUCAGAUG B cAuGcGuucuccucAGAuGTT B 1704 R-008309030-000X 832 126 CAUGCGUUCUCCUCAGAUG CAUcuGAGGAGAAcGcAuGUU 1705 R-008042849-001H 2346 127 GAUGAUCCCAGCUACCGUU AACGGuAGcuGGGAucAucUU 1707 R-008042849-001H 2346 127 GAUGAUCCCAGCUACCGUU B GAuGAucccAGcuAccGuuTT B 1706 R-008308601-000T 1653 128 AGCCUGCCAUCUGUGCUCU B AGccuGccAucuGuGcucuTT B 1708 R-008308601-000T 1653 128 AGCCUGCCAUCUGUGCUCU AGAGcAcAGAuGGcAGGcuUU 1709 R-008308562-000W 2389 129 UGGAUAUCGCCAGGAUGAU B uGGAuAucGccAGGAuGAuTT B 1710 R-008308562-000W 2389 129 UGGAUAUCGCCAGGAUGAU AUCAuccuGGcGAuAuccAUU 1711 R-008308709-000X 1669 130 UCUUCGUCAUCUGACCAGC B ucuucGucAucuGAccAGcTT B 1712 R-008308709-000X 1669 130 UCUUCGUCAUCUGACCAGC GCUGGucAGAuGAcGAAGAUU 1713 R-008308634-000W 2123 131 UGUGAACUUGCUCAGGACA B uGuGAAcuuGcucAGGAcATT B 1714 R-008308634-000W 2123 131 UGUGAACUUGCUCAGGACA UGUccuGAGcAAGuucAcAUU 1715 R-008308667-000Z 1521 132 CCUGUGCAGCUGGAAUUCU B ccuGuGcAGcuGGAAuucuTT B 1716 R-008308667-000Z 1521 132 CCUGUGCAGCUGGAAUUCU AGAAuuccAGcuGcAcAGGUU 1717 R-008308706-000W 2125 133 UGAACUUGCUCAGGACAAG CUUGuccuGAGcAAGuucAUU 1719 R-008308706-000W 2125 133 UGAACUUGCUCAGGACAAG B uGAAcuuGcucAGGAcAAGTT B 1718 R-008308724-000N 2503 134 UGCUGACUAUCCAGUUGAU B uGcuGAcuAuccAGuuGAuTT B 1720 R-008308724-000N 2503 134 UGCUGACUAUCCAGUUGAU AUCAAcuGGAuAGucAGcAUU 1721 R-008308703-000V 1502 135 GAUGAUAUAAAUGUGGUCA UGAccAcAuuuAuAucAucUU 1723 R-008308703-000V 1502 135 GAUGAUAUAAAUGUGGUCA B GAuGAuAuAAAuGuGGucATT B 1722 R-008308496-000Y 2502 136 GUGCUGACUAUCCAGUUGA UCAAcuGGAuAGucAGcAcUU 1725 R-008308496-000Y 2502 136 GUGCUGACUAUCCAGUUGA B GuGcuGAcuAuccAGuuGATT B 1724 R-008308625-000M 2506 137 UGACUAUCCAGUUGAUGGG CCCAucAAcuGGAuAGucAUU 1727 R-008308625-000M 2506 137 UGACUAUCCAGUUGAUGGG B uGAcuAuccAGuuGAuGGGTT B 1726 R-008308589-000S 2127 138 AACUUGCUCAGGACAAGGA B AAcuuGcucAGGAcAAGGATT B 1728 R-008308589-000S 2127 138 AACUUGCUCAGGACAAGGA UCCuuGuccuGAGcAAGuuUU 1729 R-008308586-000R 2505 139 CUGACUAUCCAGUUGAUGG B cuGAcuAuccAGuuGAuGGTT B 1730 R-008308586-000R 2505 139 CUGACUAUCCAGUUGAUGG CCAucAAcuGGAuAGucAGUU 1731 R-008308493-000X 617 140 GCUCAUCCCACUAAUGUCC B GcucAucccAcuAAuGuccTT B 1732 R-008308493-000X 617 140 GCUCAUCCCACUAAUGUCC GGAcAuuAGuGGGAuGAGcUU 1733 R-008308697-000B 2504 141 GCUGACUAUCCAGUUGAUG B GcuGAcuAuccAGuuGAuGTT B 1734 R-008308697-000B 2504 141 GCUGACUAUCCAGUUGAUG CAUcAAcuGGAuAGucAGcUU 1735 R-008308661-000X 1503 142 AUGAUAUAAAUGUGGUCAC GUGAccAcAuuuAuAucAuUU 1737 R-008308661-000X 1503 142 AUGAUAUAAAUGUGGUCAC B AuGAuAuAAAuGuGGucAcTT B 1736 R-008308526-000L 618 143 CUCAUCCCACUAAUGUCCA UGGAcAuuAGuGGGAuGAGUU 1739 R-008308526-000L 618 143 CUCAUCCCACUAAUGUCCA B cucAucccAcuAAuGuccATT B 1738 R-008308556-000N 2074 144 GCUUUAUUCUCCCAUUGAA B GcuuuAuucucccAuuGAATT B 1740 R-008308556-000N 2074 144 GCUUUAUUCUCCCAUUGAA UUCAAuGGGAGAAuAAAGcUU 1741 R-008308523-000K 2499 145 CUGGUGCUGACUAUCCAGU B cuGGuGcuGAcuAuccAGuTT B 1742 R-008308523-000K 2499 145 CUGGUGCUGACUAUCCAGU ACUGGAuAGucAGcAccAGUU 1743 R-008362860-000A 1406 146 AACUGUCUUUGGACUCUCA B AAcuGucuuuGGAcucucATT B 1744 R-008362860-000A 1406 146 AACUGUCUUUGGACUCUCA UGAGAGuccAAAGAcAGuuUU 1745 R-008362809-000Z 582 147 AGGGCAUGCAGAUCCCAUC GAUGGGAucuGcAuGcccuUU 1747 R-008362809-000Z 582 147 AGGGCAUGCAGAUCCCAUC B AGGGcAuGcAGAucccAucTT B 1746 R-008362908-000A 1505 148 GAUAUAAAUGUGGUCACCU B GAuAuAAAuGuGGucAccuTT B 1748 R-008362908-000A 1505 148 GAUAUAAAUGUGGUCACCU AGGuGAccAcAuuuAuAucUU 1749 R-008362713-000E 1432 149 UUCAGAUGCUGCAACUAAA UUUAGuuGcAGcAucuGAAUU 1751 R-008362713-000E 1432 149 UUCAGAUGCUGCAACUAAA B uucAGAuGcuGcAAcuAAATT B 1750 R-008363073-000K 1968 150 AAGAAAUAGUUGAAGGUUG B AAGAAAuAGuuGAAGGuuGTT B 1752 R-008363073-000K 1968 150 AAGAAAUAGUUGAAGGUUG CAAccuucAAcuAuuucuuUU 1753 R-008362947-000L 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 1754 R-008362947-000L 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUU 1755 R-008363070-000J 954 152 UGGCCAUCUUUAAGUCUGG CCAGAcuuAAAGAuGGccAUU 1757 R-008363070-000J 954 152 UGGCCAUCUUUAAGUCUGG B uGGccAucuuuAAGucuGGTT B 1756 R-008362857-000U 505 153 AGCUGAUAUUGAUGGACAG B AGcuGAuAuuGAuGGAcAGTT B 1758 R-008362857-000U 505 153 AGCUGAUAUUGAUGGACAG CUGuccAucAAuAucAGcuUU 1759 R-008363067-000C 2011 154 UCGGGAUGUUCACAACCGA B ucGGGAuGuucAcAAccGATT B 1760 R-008363067-000C 2011 154 UCGGGAUGUUCACAACCGA UCGGuuGuGAAcAucccGAUU 1761 R-008362944-000K 1339 155 UGUAGAAGCUGGUGGAAUG B uGuAGAAGcuGGuGGAAuGTT B 1762 R-008362944-000K 1339 155 UGUAGAAGCUGGUGGAAUG CAUuccAccAGcuucuAcAUU 1763 R-008362761-000Z 1242 156 UAAAUAUAAUGAGGACCUA B uAAAuAuAAuGAGGAccuATT B 1764 R-008362761-000Z 1242 156 UAAAUAUAAUGAGGACCUA UAGGuccucAuuAuAuuuAUU 1765 R-008362758-000T 567 157 CUGAGACAUUAGAUGAGGG B cuGAGAcAuuAGAuGAGGGTT B 1766 R-008362758-000T 567 157 CUGAGACAUUAGAUGAGGG CCCucAucuAAuGucucAGUU 1767 R-008363007-000Y 1240 158 AGUAAAUAUAAUGAGGACC B AGuAAAuAuAAuGAGGAccTT B 1768 R-008363007-000Y 1240 158 AGUAAAUAUAAUGAGGACC GGUccucAuuAuAuuuAcuUU 1769 R-008362854-000T 438 159 UGGAUACCUCCCAAGUCCU B uGGAuAccucccAAGuccuTT B 1770 R-008362854-000T 438 159 UGGAUACCUCCCAAGUCCU AGGAcuuGGGAGGuAuccAUU 1771 R-008362755-000S 2445 160 AGGAUGCCUUGGGUAUGGA UCCAuAcccAAGGcAuccuUU 1773 R-008362755-000S 2445 160 AGGAUGCCUUGGGUAUGGA B AGGAuGccuuGGGuAuGGATT B 1772 R-008363064-000B 860 161 AUUGUACGUACCAUGCAGA B AuuGuAcGuAccAuGcAGATT B 1774 R-008363064-000B 860 161 AUUGUACGUACCAUGCAGA UCUGcAuGGuAcGuAcAAuUU 1775 R-008362752-000R 1413 162 UUUGGACUCUCAGGAAUCU B uuuGGAcucucAGGAAucuTT B 1776 R-008362752-000R 1413 162 UUUGGACUCUCAGGAAUCU AGAuuccuGAGAGuccAAAUU 1777 R-008363061-000A 1800 163 UUGGAUUGAUUCGAAAUCU AGAuuucGAAucAAuccAAUU 1779 R-008363061-000A 1800 163 UUGGAUUGAUUCGAAAUCU B uuGGAuuGAuucGAAAucuTT B 1778 R-008363004-000X 2037 164 UCAGAGGACUAAAUACCAU AUGGuAuuuAGuccucuGAUU 1781 R-008363004-000X 2037 164 UCAGAGGACUAAAUACCAU B ucAGAGGAcuAAAuAccAuTT B 1780 R-008362851-000S 2443 165 CCAGGAUGCCUUGGGUAUG B ccAGGAuGccuuGGGuAuGTT B 1782 R-008362851-000S 2443 165 CCAGGAUGCCUUGGGUAUG CAUAcccAAGGcAuccuGGUU 1783 R-008363001-000W 2471 166 AUGGAACAUGAGAUGGGUG B AuGGAAcAuGAGAuGGGuGTT B 1784 R-008363001-000W 2471 166 AUGGAACAUGAGAUGGGUG CACccAucucAuGuuccAuUU 1785 R-008362905-000Z 1792 167 GGCUACUGUUGGAUUGAUU B GGcuAcuGuuGGAuuGAuuTT B 1786 R-008362905-000Z 1792 167 GGCUACUGUUGGAUUGAUU AAUcAAuccAAcAGuAGccUU 1787 R-008362902-000Y 2547 168 AGGACCUCAUGGAUGGGCU B AGGAccucAuGGAuGGGcuTT B 1788 R-008362902-000Y 2547 168 AGGACCUCAUGGAUGGGCU AGCccAuccAuGAGGuccuUU 1789 R-008362998-000G 1662 169 UCUGUGCUCUUCGUCAUCU AGAuGAcGAAGAGcAcAGAUU 1791 R-008362998-000G 1662 169 UCUGUGCUCUUCGUCAUCU B ucuGuGcucuucGucAucuTT B 1790 R-008362848-000K 288 170 UGAUGGAGUUGGACAUGGC GCCAuGuccAAcuccAucAUU 1793 R-008362848-000K 288 170 UGAUGGAGUUGGACAUGGC B uGAuGGAGuuGGAcAuGGcTT B 1792 R-008362710-000D 579 171 AUGAGGGCAUGCAGAUCCC GGGAucuGcAuGcccucAuUU 1795 R-008362710-000D 579 171 AUGAGGGCAUGCAGAUCCC B AuGAGGGcAuGcAGAucccTT B 1794 R-008362707-000X 2508 172 ACUAUCCAGUUGAUGGGCU AGCccAucAAcuGGAuAGuUU 1797 R-008362707-000X 2508 172 ACUAUCCAGUUGAUGGGCU B AcuAuccAGuuGAuGGGcuTT B 1796 R-008362806-000Y 580 173 UGAGGGCAUGCAGAUCCCA B uGAGGGcAuGcAGAucccATT B 1798 R-008362806-000Y 580 173 UGAGGGCAUGCAGAUCCCA UGGGAucuGcAuGcccucAUU 1799 R-008362803-000X 2388 174 UUGGAUAUCGCCAGGAUGA B uuGGAuAucGccAGGAuGATT B 1800 R-008362803-000X 2388 174 UUGGAUAUCGCCAGGAUGA UCAuccuGGcGAuAuccAAUU 1801 R-008362899-000F 2543 175 GCCCAGGACCUCAUGGAUG B GcccAGGAccucAuGGAuGTT B 1802 R-008362899-000F 2543 175 GCCCAGGACCUCAUGGAUG CAUccAuGAGGuccuGGGcUU 1803 R-008362749-000J 708 176 AACUUGCCACACGUGCAAU B AAcuuGccAcAcGuGcAAuTT B 1804 R-008362749-000J 708 176 AACUUGCCACACGUGCAAU AUUGcAcGuGuGGcAAGuuUU 1805 R-008362845-000J 447 177 CCCAAGUCCUGUAUGAGUG B cccAAGuccuGuAuGAGuGTT B 1806 R-008362845-000J 447 177 CCCAAGUCCUGUAUGAGUG CACucAuAcAGGAcuuGGGUU 1807 R-008362842-000H 654 178 CACAGAUGCUGAAACAUGC GCAuGuuucAGcAucuGuGUU 1809 R-008362842-000H 654 178 CACAGAUGCUGAAACAUGC B cAcAGAuGcuGAAAcAuGcTT B 1808 R-008362896-000E 912 179 CUGGGACCUUGCAUAACCU B cuGGGAccuuGcAuAAccuTT B 1810 R-008362896-000E 912 179 CUGGGACCUUGCAUAACCU AGGuuAuGcAAGGucccAGUU 1811 R-008363058-000U 1009 180 AGUGGAUUCUGUGUUGUUU AAAcAAcAcAGAAuccAcuUU 1813 R-008363058-000U 1009 180 AGUGGAUUCUGUGUUGUUU B AGuGGAuucuGuGuuGuuuTT B 1812 R-008362941-000J 1354 181 AAUGCAAGCUUUAGGACUU B AAuGcAAGcuuuAGGAcuuTT B 1814 R-008362941-000J 1354 181 AAUGCAAGCUUUAGGACUU AAGuccuAAAGcuuGcAuuUU 1815 R-008362839-000B 1969 182 AGAAAUAGUUGAAGGUUGU B AGAAAuAGuuGAAGGuuGuTT B 1816 R-008362839-000B 1969 182 AGAAAUAGUUGAAGGUUGU ACAAccuucAAcuAuuucuUU 1817 R-008363055-000T 1959 183 UCCGCAUGGAAGAAAUAGU ACUAuuucuuccAuGcGGAUU 1819 R-008363055-000T 1959 183 UCCGCAUGGAAGAAAUAGU B uccGcAuGGAAGAAAuAGuTT B 1818 R-008362836-000A 557 184 GCUAUGUUCCCUGAGACAU B GcuAuGuucccuGAGAcAuTT B 1820 R-008362836-000A 557 184 GCUAUGUUCCCUGAGACAU AUGucucAGGGAAcAuAGcUU 1821 R-008363052-000S 403 185 UCUGAGUGGUAAAGGCAAU AUUGccuuuAccAcucAGAUU 1823 R-008363052-000S 403 185 UCUGAGUGGUAAAGGCAAU B ucuGAGuGGuAAAGGcAAuTT B 1822 R-008363049-000K 1356 186 UGCAAGCUUUAGGACUUCA B uGcAAGcuuuAGGAcuucATT B 1824 R-008363049-000K 1356 186 UGCAAGCUUUAGGACUUCA UGAAGuccuAAAGcuuGcAUU 1825 R-008362893-000D 517 187 UGGACAGUAUGCAAUGACU B uGGAcAGuAuGcAAuGAcuTT B 1826 R-008362893-000D 517 187 UGGACAGUAUGCAAUGACU AGUcAuuGcAuAcuGuccAUU 1827 R-008362890-000C 1238 188 UUAGUAAAUAUAAUGAGGA UCCucAuuAuAuuuAcuAAUU 1829 R-008362890-000C 1238 188 UUAGUAAAUAUAAUGAGGA B uuAGuAAAuAuAAuGAGGATT B 1828 R-008362995-000F 843 189 CUCAGAUGGUGUCUGCUAU B cucAGAuGGuGucuGcuAuTT B 1830 R-008362995-000F 843 189 CUCAGAUGGUGUCUGCUAU AUAGcAGAcAccAucuGAGUU 1831 R-008362992-000E 496 190 AGAACAAGUAGCUGAUAUU B AGAAcAAGuAGcuGAuAuuTT B 1832 R-008362992-000E 496 190 AGAACAAGUAGCUGAUAUU AAUAucAGcuAcuuGuucuUU 1833 R-008363046-000J 2387 191 CUUGGAUAUCGCCAGGAUG B cuuGGAuAucGccAGGAuGTT B 1834 R-008363046-000J 2387 191 CUUGGAUAUCGCCAGGAUG CAUccuGGcGAuAuccAAGUU 1835 R-008362704-000W 1660 192 CAUCUGUGCUCUUCGUCAU AUGAcGAAGAGcAcAGAuGUU 1837 R-008362704-000W 1660 192 CAUCUGUGCUCUUCGUCAU B cAucuGuGcucuucGucAuTT B 1836 R-008362938-000C 2497 193 CCCUGGUGCUGACUAUCCA B cccuGGuGcuGAcuAuccATT B 1838 R-008362938-000C 2497 193 CCCUGGUGCUGACUAUCCA UGGAuAGucAGcAccAGGGUU 1839 R-008363043-000H 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 1840 R-008363043-000H 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUU 1841 R-008362746-000H 2353 195 UCUUGGACUUGAUAUUGGU B ucuuGGAcuuGAuAuuGGuTT B 1842 R-008362746-000H 2353 195 UCUUGGACUUGAUAUUGGU ACCAAuAucAAGuccAAGAUU 1843 R-008362743-000G 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 1844 R-008362743-000G 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUU 1845 R-008362887-000W 1238 188 UUAGUAAAUAUAAUGAGGA B UUAGUAAAUAUAAUGAGGATT B 1846 R-008362887-000W 1238 188 UUAGUAAAUAUAAUGAGGA UCCUCAUUAUAUUUACUAAUU 1847 R-008363040-000G 2125 133 UGAACUUGCUCAGGACAAG B UGAACUUGCUCAGGACAAGTT B 1848 R-008363040-000G 2125 133 UGAACUUGCUCAGGACAAG CUUGUCCUGAGCAAGUUCAUU 1849 R-008362935-000B 843 189 CUCAGAUGGUGUCUGCUAU AUAGCAGACACCAUCUGAGUU 1851 R-008362935-000B 843 189 CUCAGAUGGUGUCUGCUAU B CUCAGAUGGUGUCUGCUAUTT B 1850 R-008362740-000F 496 190 AGAACAAGUAGCUGAUAUU AAUAUCAGCUACUUGUUCUUU 1853 R-008362740-000F 496 190 AGAACAAGUAGCUGAUAUU B AGAACAAGUAGCUGAUAUUTT B 1852 R-008362884-000V 2074 144 GCUUUAUUCUCCCAUUGAA UUCAAUGGGAGAAUAAAGCUU 1855 R-008362884-000V 2074 144 GCUUUAUUCUCCCAUUGAA B GCUUUAUUCUCCCAUUGAATT B 1854 R-008362701-000V 2503 134 UGCUGACUAUCCAGUUGAU B UGCUGACUAUCCAGUUGAUTT B 1856 R-008362701-000V 2503 134 UGCUGACUAUCCAGUUGAU AUCAACUGGAUAGUCAGCAUU 1857 R-008362698-000C 2387 191 CUUGGAUAUCGCCAGGAUG B CUUGGAUAUCGCCAGGAUGTT B 1858 R-008362698-000C 2387 191 CUUGGAUAUCGCCAGGAUG CAUCCUGGCGAUAUCCAAGUU 1859 R-008362800-000W 1660 192 CAUCUGUGCUCUUCGUCAU AUGACGAAGAGCACAGAUGUU 1861 R-008362800-000W 1660 192 CAUCUGUGCUCUUCGUCAU B CAUCUGUGCUCUUCGUCAUTT B 1860 R-008362737-000Z 2497 193 CCCUGGUGCUGACUAUCCA B CCCUGGUGCUGACUAUCCATT B 1862 R-008362737-000Z 2497 193 CCCUGGUGCUGACUAUCCA UGGAUAGUCAGCACCAGGGUU 1863 R-008363037-000A 1503 142 AUGAUAUAAAUGUGGUCAC B AUGAUAUAAAUGUGGUCACTT B 1864 R-008363037-000A 1503 142 AUGAUAUAAAUGUGGUCAC GUGACCACAUUUAUAUCAUUU 1865 R-008362734-000Y 2506 137 UGACUAUCCAGUUGAUGGG CCCAUCAACUGGAUAGUCAUU 1867 R-008362734-000Y 2506 137 UGACUAUCCAGUUGAUGGG B UGACUAUCCAGUUGAUGGGTT B 1866 R-008362797-000D 2052 71 CCAUUCCAUUGUUUGUGCA UGCACAAACAAUGGAAUGGUU 1869 R-008362797-000D 2052 71 CCAUUCCAUUGUUUGUGCA B CCAUUCCAUUGUUUGUGCATT B 1868 R-008362731-000X 2389 129 UGGAUAUCGCCAGGAUGAU B UGGAUAUCGCCAGGAUGAUTT B 1870 R-008362731-000X 2389 129 UGGAUAUCGCCAGGAUGAU AUCAUCCUGGCGAUAUCCAUU 1871 R-008362794-000C 1406 146 AACUGUCUUUGGACUCUCA B AACUGUCUUUGGACUCUCATT B 1872 R-008362794-000C 1406 146 AACUGUCUUUGGACUCUCA UGAGAGUCCAAAGACAGUUUU 1873 R-008362833-000Z 1796 12 ACUGUUGGAUUGAUUCGAA B ACUGUUGGAUUGAUUCGAATT B 1874 R-008362833-000Z 1796 12 ACUGUUGGAUUGAUUCGAA UUCGAAUCAAUCCAACAGUUU 1875 R-008362989-000Y 2505 139 CUGACUAUCCAGUUGAUGG B CUGACUAUCCAGUUGAUGGTT B 1876 R-008362989-000Y 2505 139 CUGACUAUCCAGUUGAUGG CCAUCAACUGGAUAGUCAGUU 1877 R-008362791-000B 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAATT B 1878 R-008362791-000B 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUU 1879 R-008362881-000U 643 75 GGCUGAACCAUCACAGAUG B GGCUGAACCAUCACAGAUGTT B 1880 R-008362881-000U 643 75 GGCUGAACCAUCACAGAUG CAUCUGUGAUGGUUCAGCCUU 1881 R-008363034-000Z 582 147 AGGGCAUGCAGAUCCCAUC GAUGGGAUCUGCAUGCCCUUU 1883 R-008363034-000Z 582 147 AGGGCAUGCAGAUCCCAUC B AGGGCAUGCAGAUCCCAUCTT B 1882 R-008362830-000Y 2502 136 GUGCUGACUAUCCAGUUGA B GUGCUGACUAUCCAGUUGATT B 1884 R-008362830-000Y 2502 136 GUGCUGACUAUCCAGUUGA UCAACUGGAUAGUCAGCACUU 1885 R-008362827-000S 1505 148 GAUAUAAAUGUGGUCACCU AGGUGACCACAUUUAUAUCUU 1887 R-008362827-000S 1505 148 GAUAUAAAUGUGGUCACCU B GAUAUAAAUGUGGUCACCUTT B 1886 R-008362728-000R 1432 149 UUCAGAUGCUGCAACUAAA B UUCAGAUGCUGCAACUAAATT B 1888 R-008362728-000R 1432 149 UUCAGAUGCUGCAACUAAA UUUAGUUGCAGCAUCUGAAUU 1889 R-008362986-000X 1968 150 AAGAAAUAGUUGAAGGUUG CAACCUUCAACUAUUUCUUUU 1891 R-008362986-000X 1968 150 AAGAAAUAGUUGAAGGUUG B AAGAAAUAGUUGAAGGUUGTT B 1890 R-008362878-000M 694 109 UCAAGAUGAUGCAGAACUU B UCAAGAUGAUGCAGAACUUTT B 1892 R-008362878-000M 694 109 UCAAGAUGAUGCAGAACUU AAGUUCUGCAUCAUCUUGAUU 1893 R-008362824-000R 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUU 1895 R-008362824-000R 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUTT B 1894 R-008362932-000A 2259 125 AGGACAAGCCACAAGAUUA UAAUCUUGUGGCUUGUCCUUU 1897 R-008362932-000A 2259 125 AGGACAAGCCACAAGAUUA B AGGACAAGCCACAAGAUUATT B 1896 R-008362788-000V 954 152 UGGCCAUCUUUAAGUCUGG B UGGCCAUCUUUAAGUCUGGTT B 1898 R-008362788-000V 954 152 UGGCCAUCUUUAAGUCUGG CCAGACUUAAAGAUGGCCAUU 1899 R-008362983-000W 2197 116 ACUUCACUCUAGGAAUGAA B ACUUCACUCUAGGAAUGAATT B 1900 R-008362983-000W 2197 116 ACUUCACUCUAGGAAUGAA UUCAUUCCUAGAGUGAAGUUU 1901 R-008362929-000U 505 153 AGCUGAUAUUGAUGGACAG B AGCUGAUAUUGAUGGACAGTT B 1902 R-008362929-000U 505 153 AGCUGAUAUUGAUGGACAG CUGUCCAUCAAUAUCAGCUUU 1903 R-008362926-000T 2011 154 UCGGGAUGUUCACAACCGA B UCGGGAUGUUCACAACCGATT B 1904 R-008362926-000T 2011 154 UCGGGAUGUUCACAACCGA UCGGUUGUGAACAUCCCGAUU 1905 R-008362923-000S 1339 155 UGUAGAAGCUGGUGGAAUG B UGUAGAAGCUGGUGGAAUGTT B 1906 R-008362923-000S 1339 155 UGUAGAAGCUGGUGGAAUG CAUUCCACCAGCUUCUACAUU 1907 R-008362695-000B 1242 156 UAAAUAUAAUGAGGACCUA B UAAAUAUAAUGAGGACCUATT B 1908 R-008362695-000B 1242 156 UAAAUAUAAUGAGGACCUA UAGGUCCUCAUUAUAUUUAUU 1909 R-008362692-000A 499 107 ACAAGUAGCUGAUAUUGAU B ACAAGUAGCUGAUAUUGAUTT B 1910 R-008362692-000A 499 107 ACAAGUAGCUGAUAUUGAU AUCAAUAUCAGCUACUUGUUU 1911 R-008362689-000U 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUU 1913 R-008362689-000U 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUTT B 1912 R-008362785-000U 2353 195 UCUUGGACUUGAUAUUGGU B UCUUGGACUUGAUAUUGGUTT B 1914 R-008362785-000U 2353 195 UCUUGGACUUGAUAUUGGU ACCAAUAUCAAGUCCAAGAUU 1915 R-008363031-000Y 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUU 1917 R-008363031-000Y 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUTT B 1916 R-008362920-000R 878 197 AAUACAAAUGAUGUAGAAA UUUCUACAUCAUUUGUAUUUU 1919 R-008362920-000R 878 197 AAUACAAAUGAUGUAGAAA B AAUACAAAUGAUGUAGAAATT B 1918 R-008362917-000J 2046 112 UAAAUACCAUUCCAUUGUU AACAAUGGAAUGGUAUUUAUU 1921 R-008362917-000J 2046 112 UAAAUACCAUUCCAUUGUU B UAAAUACCAUUCCAUUGUUTT B 1920 R-008362980-000V 647 198 GAACCAUCACAGAUGCUGA UCAGCAUCUGUGAUGGUUCUU 1923 R-008362980-000V 647 198 GAACCAUCACAGAUGCUGA B GAACCAUCACAGAUGCUGATT B 1922 R-008362725-000P 1998 199 UUCACAUCCUAGCUCGGGA B UUCACAUCCUAGCUCGGGATT B 1924 R-008362725-000P 1998 199 UUCACAUCCUAGCUCGGGA UCCCGAGCUAGGAUGUGAAUU 1925 R-008363028-000S 588 200 UGCAGAUCCCAUCUACACA UGUGUAGAUGGGAUCUGCAUU 1927 R-008363028-000S 588 200 UGCAGAUCCCAUCUACACA B UGCAGAUCCCAUCUACACATT B 1926 R-008362782-000T 2042 201 GGACUAAAUACCAUUCCAU AUGGAAUGGUAUUUAGUCCUU 1929 R-008362782-000T 2042 201 GGACUAAAUACCAUUCCAU B GGACUAAAUACCAUUCCAUTT B 1928 R-008362977-000N 855 202 CUGCUAUUGUACGUACCAU B CUGCUAUUGUACGUACCAUTT B 1930 R-008362977-000N 855 202 CUGCUAUUGUACGUACCAU AUGGUACGUACAAUAGCAGUU 1931 R-008362686-000T 2038 203 CAGAGGACUAAAUACCAUU AAUGGUAUUUAGUCCUCUGUU 1933 R-008362686-000T 2038 203 CAGAGGACUAAAUACCAUU B CAGAGGACUAAAUACCAUUTT B 1932 R-008362875-000L 1786 204 GAUAAAGGCUACUGUUGGA UCCAACAGUAGCCUUUAUCUU 1935 R-008362875-000L 1786 204 GAUAAAGGCUACUGUUGGA B GAUAAAGGCUACUGUUGGATT B 1934 R-008363025-000R 1501 205 AGAUGAUAUAAAUGUGGUC B AGAUGAUAUAAAUGUGGUCTT B 1936 R-008363025-000R 1501 205 AGAUGAUAUAAAUGUGGUC GACCACAUUUAUAUCAUCUUU 1937 R-008362914-000H 1834 206 AAAUCAUGCACCUUUGCGU ACGCAAAGGUGCAUGAUUUUU 1939 R-008362914-000H 1834 206 AAAUCAUGCACCUUUGCGU B AAAUCAUGCACCUUUGCGUTT B 1938 R-008362872-000K 1157 207 ACGACAGACUGCCUUCAAA B ACGACAGACUGCCUUCAAATT B 1940 R-008362872-000K 1157 207 ACGACAGACUGCCUUCAAA UUUGAAGGCAGUCUGUCGUUU 1941 R-008362974-000M 1239 208 UAGUAAAUAUAAUGAGGAC B UAGUAAAUAUAAUGAGGACTT B 1942 R-008362974-000M 1239 208 UAGUAAAUAUAAUGAGGAC GUCCUCAUUAUAUUUACUAUU 1943 R-008362821-000P 1248 209 UAAUGAGGACCUAUACUUA B UAAUGAGGACCUAUACUUATT B 1944 R-008362821-000P 1248 209 UAAUGAGGACCUAUACUUA UAAGUAUAGGUCCUCAUUAUU 1945 R-008362683-000S 660 210 UGCUGAAACAUGCAGUUGU B UGCUGAAACAUGCAGUUGUTT B 1946 R-008362683-000S 660 210 UGCUGAAACAUGCAGUUGU ACAACUGCAUGUUUCAGCAUU 1947 R-008363022-000P 285 211 AUUUGAUGGAGUUGGACAU B AUUUGAUGGAGUUGGACAUTT B 1948 R-008363022-000P 285 211 AUUUGAUGGAGUUGGACAU AUGUCCAACUCCAUCAAAUUU 1949 R-008362779-000L 1582 212 CUGCCAAGUGGGUGGUAUA B CUGCCAAGUGGGUGGUAUATT B 1950 R-008362779-000L 1582 212 CUGCCAAGUGGGUGGUAUA UAUACCACCCACUUGGCAGUU 1951 R-008363019-000H 1735 213 UGGACUACCAGUUGUGGUU AACCACAACUGGUAGUCCAUU 1953 R-008363019-000H 1735 213 UGGACUACCAGUUGUGGUU B UGGACUACCAGUUGUGGUUTT B 1952 R-008362776-000K 771 214 UUAAUAAGGCUGCAGUUAU AUAACUGCAGCCUUAUUAAUU 1955 R-008362776-000K 771 214 UUAAUAAGGCUGCAGUUAU B UUAAUAAGGCUGCAGUUAUTT B 1954 R-008363016-000G 1060 215 ACAUCAAGAAGGAGCUAAA B ACAUCAAGAAGGAGCUAAATT B 1956 R-008363016-000G 1060 215 ACAUCAAGAAGGAGCUAAA UUUAGCUCCUUCUUGAUGUUU 1957 R-008362773-000J 2390 216 GGAUAUCGCCAGGAUGAUC GAUCAUCCUGGCGAUAUCCUU 1959 R-008362773-000J 2390 216 GGAUAUCGCCAGGAUGAUC B GGAUAUCGCCAGGAUGAUCTT B 1958 R-008362971-000L 2509 81 CUAUCCAGUUGAUGGGCUG CAGCCCAUCAACUGGAUAGUU 1961 R-008362971-000L 2509 81 CUAUCCAGUUGAUGGGCUG B CUAUCCAGUUGAUGGGCUGTT B 1960 R-008362722-000N 2186 217 CUGACAGAGUUACUUCACU B CUGACAGAGUUACUUCACUTT B 1962 R-008362722-000N 2186 217 CUGACAGAGUUACUUCACU AGUGAAGUAACUCUGUCAGUU 1963 R-008363013-000F 1632 218 GUGACAGGGAAGACAUCAC B GUGACAGGGAAGACAUCACTT B 1964 R-008363013-000F 1632 218 GUGACAGGGAAGACAUCAC GUGAUGUCUUCCCUGUCACUU 1965 R-008362818-000H 619 219 UCAUCCCACUAAUGUCCAG CUGGACAUUAGUGGGAUGAUU 1967 R-008362818-000H 619 219 UCAUCCCACUAAUGUCCAG B UCAUCCCACUAAUGUCCAGTT B 1966 R-008362968-000E 1656 220 CUGCCAUCUGUGCUCUUCG B CUGCCAUCUGUGCUCUUCGTT B 1968 R-008362968-000E 1656 220 CUGCCAUCUGUGCUCUUCG CGAAGAGCACAGAUGGCAGUU 1969 R-008362815-000G 1506 221 AUAUAAAUGUGGUCACCUG B AUAUAAAUGUGGUCACCUGTT B 1970 R-008362815-000G 1506 221 AUAUAAAUGUGGUCACCUG CAGGUGACCACAUUUAUAUUU 1971 R-008362869-000D 2501 76 GGUGCUGACUAUCCAGUUG B GGUGCUGACUAUCCAGUUGTT B 1972 R-008362869-000D 2501 76 GGUGCUGACUAUCCAGUUG CAACUGGAUAGUCAGCACCUU 1973 R-008362719-000G 2494 222 CCACCCUGGUGCUGACUAU AUAGUCAGCACCAGGGUGGUU 1975 R-008362719-000G 2494 222 CCACCCUGGUGCUGACUAU B CCACCCUGGUGCUGACUAUTT B 1974 R-008362770-000H 1666 223 UGCUCUUCGUCAUCUGACC GGUCAGAUGACGAAGAGCAUU 1977 R-008362770-000H 1666 223 UGCUCUUCGUCAUCUGACC B UGCUCUUCGUCAUCUGACCTT B 1976 R-008362680-000R 1635 224 ACAGGGAAGACAUCACUGA B ACAGGGAAGACAUCACUGATT B 1978 R-008362680-000R 1635 224 ACAGGGAAGACAUCACUGA UCAGUGAUGUCUUCCCUGUUU 1979 R-008362866-000C 294 225 AGUUGGACAUGGCCAUGGA UCCAUGGCCAUGUCCAACUUU 1981 R-008362866-000C 294 225 AGUUGGACAUGGCCAUGGA B AGUUGGACAUGGCCAUGGATT B 1980 R-008362863-000B 641 226 UUGGCUGAACCAUCACAGA B UUGGCUGAACCAUCACAGATT B 1982 R-008362863-000B 641 226 UUGGCUGAACCAUCACAGA UCUGUGAUGGUUCAGCCAAUU 1983 R-008362965-000D 576 227 UAGAUGAGGGCAUGCAGAU AUCUGCAUGCCCUCAUCUAUU 1985 R-008362965-000D 576 227 UAGAUGAGGGCAUGCAGAU B UAGAUGAGGGCAUGCAGAUTT B 1984 R-008362911-000G 577 228 AGAUGAGGGCAUGCAGAUC B AGAUGAGGGCAUGCAGAUCTT B 1986 R-008362911-000G 577 228 AGAUGAGGGCAUGCAGAUC GAUCUGCAUGCCCUCAUCUUU 1987 R-008362767-000B 1661 229 AUCUGUGCUCUUCGUCAUC GAUGACGAAGAGCACAGAUUU 1989 R-008362767-000B 1661 229 AUCUGUGCUCUUCGUCAUC B AUCUGUGCUCUUCGUCAUCTT B 1988 R-008362962-000C 707 230 GAACUUGCCACACGUGCAA B GAACUUGCCACACGUGCAATT B 1990 R-008362962-000C 707 230 GAACUUGCCACACGUGCAA UUGCACGUGUGGCAAGUUCUU 1991 R-008362677-000J 1659 231 CCAUCUGUGCUCUUCGUCA B CCAUCUGUGCUCUUCGUCATT B 1992 R-008362677-000J 1659 231 CCAUCUGUGCUCUUCGUCA UGACGAAGAGCACAGAUGGUU 1993 R-008362674-000H 1547 88 CUCACUUGCAAUAAUUAUA UAUAAUUAUUGCAAGUGAGUU 1995 R-008362674-000H 1547 88 CUCACUUGCAAUAAUUAUA B CUCACUUGCAAUAAUUAUATT B 1994 R-008362959-000W 867 90 GUACCAUGCAGAAUACAAA UUUGUAUUCUGCAUGGUACUU 1997 R-008362959-000W 867 90 GUACCAUGCAGAAUACAAA B GUACCAUGCAGAAUACAAATT B 1996 R-008362956-000V 1185 232 AUGGCAACCAAGAAAGCAA UUGCUUUCUUGGUUGCCAUUU 1999 R-008362956-000V 1185 232 AUGGCAACCAAGAAAGCAA B AUGGCAACCAAGAAAGCAATT B 1998 R-008362764-000A 664 233 GAAACAUGCAGUUGUAAAC GUUUACAACUGCAUGUUUCUU 2001 R-008362764-000A 664 233 GAAACAUGCAGUUGUAAAC B GAAACAUGCAGUUGUAAACTT B 2000 R-008362716-000F 820 18 CAGACACGCUAUCAUGCGU B CAGACACGCUAUCAUGCGUTT B 2002 R-008362716-000F 820 18 CAGACACGCUAUCAUGCGU ACGCAUGAUAGCGUGUCUGUU 2003 R-008362812-000F 2266 101 GCCACAAGAUUACAAGAAA UUUCUUGUAAUCUUGUGGCUU 2005 R-008362812-000F 2266 101 GCCACAAGAUUACAAGAAA B GCCACAAGAUUACAAGAAATT B 2004 R-008362671-000G 1749 234 UGGUUAAGCUCUUACACCC GGGUGUAAGAGCUUAACCAUU 2007 R-008362671-000G 1749 234 UGGUUAAGCUCUUACACCC B UGGUUAAGCUCUUACACCCTT B 2006 R-008362953-000U 1234 235 AGCUUUAGUAAAUAUAAUG B AGCUUUAGUAAAUAUAAUGTT B 2008 R-008362953-000U 1234 235 AGCUUUAGUAAAUAUAAUG CAUUAUAUUUACUAAAGCUUU 2009 R-008362950-000T 691 236 CUAUCAAGAUGAUGCAGAA B CUAUCAAGAUGAUGCAGAATT B 2010 R-008362950-000T 691 236 CUAUCAAGAUGAUGCAGAA UUCUGCAUCAUCUUGAUAGUU 2011 R-008363010-000E 1387 237 AAGUCAACGUCUUGUUCAG B AAGUCAACGUCUUGUUCAGTT B 2012 R-008363010-000E 1387 237 AAGUCAACGUCUUGUUCAG CUGAACAAGACGUUGACUUUU 2013 R-008381224-000R 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2015 R-008381224-000R 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2014 R-008381211-000X 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2017 R-008381211-000X 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381038-000Y 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381038-000Y 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA UsU B 2018 R-008381052-000F 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381052-000F 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381158-000T 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381158-000T 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381341-000J 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381341-000J 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381109-000P 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381109-000P 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2023 R-008380818-000X 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008380818-000X 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2023 R-008381199-000W 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2023 R-008381199-000W 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381296-000E 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2024 R-008381296-000E 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381042-000N 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2024 R-008381042-000N 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008380923-000F 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008380923-000F 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2024 R-008381104-000W 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2025 R-008381104-000W 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381098-000C 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2025 R-008381098-000C 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008380916-000P 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008380916-000P 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2025 R-008380906-000X 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008380906-000X 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381291-000L 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381291-000L 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381334-000T 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381334-000T 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381330-000H 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381330-000H 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2026 R-008381036-000F 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2026 R-008381036-000F 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381287-000W 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381287-000W 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2026 R-008381027-000X 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2027 R-008381027-000X 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2028 R-008380896-000U 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2029 R-008380896-000U 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008381153-000Z 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008381153-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2031 R-008381323-000S 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008381323-000S 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381315-000S 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008381315-000S 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008380888-000U 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008380888-000U 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381013-000V 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381013-000V 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2036 R-008381007-000M 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2036 R-008381007-000M 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008380995-000V 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008380995-000V 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2036 R-008380878-000B 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2037 R-008380878-000B 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381143-000G 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2037 R-008381143-000G 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381282-000C 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381282-000C 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2037 R-008380985-000C 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2038 R-008380985-000C 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381278-000M 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2038 R-008381278-000M 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381139-000S 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2038 R-008381139-000S 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008380871-000R 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008380871-000R 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381272-000K 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008381272-000K 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381268-000V 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008381268-000V 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381133-000P 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2039 R-008381133-000P 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381261-000J 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2039 R-008381261-000J 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381091-000S 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381091-000S 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2039 R-008380861-000Y 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2041 R-008380861-000Y 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2040 R-008380853-000Y 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008380853-000Y 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2042 R-008380811-000L 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2044 R-008380811-000L 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008380974-000B 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008380974-000B 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008380966-000B 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008380966-000B 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381310-000Y 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008381310-000Y 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381194-000C 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381194-000C 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2049 R-008380833-000N 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008380833-000N 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2049 R-008381115-000X 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2049 R-008381115-000X 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381242-000H 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2050 R-008381242-000H 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381235-000S 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381235-000S 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2050 R-008381231-000G 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2050 R-008381231-000G 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381304-000R 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2051 R-008381304-000R 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008380828-000P 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008380828-000P 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2051 R-008380926-000G 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2051 R-008380926-000G 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381350-000T 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008381350-000T 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381162-000H 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381162-000H 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008380823-000W 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008380823-000W 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381068-000A 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2052 R-008381068-000A 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381190-000T 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2052 R-008381190-000T 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008380959-000K 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2052 R-008380959-000K 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381084-000A 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2054 R-008381084-000A 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2053 R-008380848-000Z 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2055 R-008380848-000Z 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008380807-000W 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2057 R-008380807-000W 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008380843-000F 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008380843-000F 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008381185-000U 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381185-000U 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008380951-000R 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380951-000R 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008380804-000V 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008380804-000V 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2062 R-008381179-000L 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381179-000L 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2062 R-008381127-000G 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2062 R-008381127-000G 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380945-000H 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008380945-000H 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2063 R-008381071-000G 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381071-000G 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2063 R-008381173-000J 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008381173-000J 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2063 R-008381122-000N 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008381122-000N 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2064 R-008380801-000U 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008380801-000U 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2064 R-008380839-000R 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380839-000R 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2064 R-008380835-000F 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008380835-000F 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008381258-000C 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008381258-000C 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381169-000U 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008381169-000U 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380937-000H 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008380937-000H 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2065 R-008381251-000S 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381251-000S 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2065 R-008380933-000Y 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380933-000Y 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2065 R-008381748-000J 1797 5 CUGUUGGAUUGAUUCGAAA B CUgUuG GAUU GAUUCGaA AUsU B 2066 R-008381748-000J 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGaAUCAauccaACAGUsU 2067 R-008381708-000P 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUuG GaUUGaUUCGAAaUsU B 2069 R-008381708-000P 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAauCaAUCcAaCaGUsU 2068 R-008381704-000E 1797 5 CUGUUGGAUUGAUUCGAAA uUUcgAaUCaAuCCAACAGUsU 2070 R-008381704-000E 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUuGgaUUG AUuCGaA A UsU B 2071 R-008381746-000S 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGaaUCAAUCcAacaGUsU 2073 R-008381746-000S 1797 5 CUGUUGGAUUGAUUCGAAA B C UgUUGgaUUGaUUCgA A A UsU B 2072 R-008381728-000Z 1797 5 CUGUUGGAUUGAUUCGAAA B CUgU UGG A UUG AUuCgA AAUsU B 2074 R-008381728-000Z 1797 5 CUGUUGGAUUGAUUCGAAA UUucGaAUCAAUCcAAcagUsU 2075 R-008381686-000B 1797 5 CUGUUGGAUUGAUUCGAAA uuUCGAAUcaaUCCAAcAgUsU 2076 R-008381686-000B 1797 5 CUGUUGGAUUGAUUCGAAA B CuG U UGgaUUgAuUCG AaaUsU B 2077 R-008381726-000G 1797 5 CUGUUGGAUUGAUUCGAAA uuUcGAAUCaaUcCAACaGUsU 2078 R-008381726-000G 1797 5 CUGUUGGAUUGAUUCGAAA B C UgUUgGaUU G AU U CGaaA UsU B 2079 R-008381629-000Y 1797 5 CUGUUGGAUUGAUUCGAAA UUucGAAuCaaUCCAacAGUsU 2081 R-008381629-000Y 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGG AU U GaUU C GAaAUsU B 2080 R-008381724-000P 1797 5 CUGUUGGAUUGAUUCGAAA B CUgU U GgA UugAUUCgAAaUsU B 2083 R-008381724-000P 1797 5 CUGUUGGAUUGAUUCGAAA uuuCgaAUCAAUCcAACagUsU 2082 R-008381670-000G 1797 5 CUGUUGGAUUGAUUCGAAA B CugUUGG A UUGaUUcgaaaUsU B 2084 R-008381670-000G 1797 5 CUGUUGGAUUGAUUCGAAA UuuCgAAUCAAUCcaACAGUsU 2085 R-008381666-000S 1797 5 CUGUUGGAUUGAUUCGAAA UuuCGaauCAaUccaACAGUsU 2087 R-008381666-000S 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUgGaUugAUuCGaAAUsU B 2086 R-008381722-000X 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUgGA U UG A UUCgA A AUsU B 2088 R-008381722-000X 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgAauCAAUCcAAcagUsU 2089 R-008381700-000V 1797 5 CUGUUGGAUUGAUUCGAAA uUuCGAAUCAaUCcaaCAGUsU 2090 R-008381700-000V 1797 5 CUGUUGGAUUGAUUCGAAA B CUgU UggAUUgaUUCGaAA UsU B 2091 R-008381650-000X 1797 5 CUGUUGGAUUGAUUCGAAA UuUCGAAUcaauCCaACaGUsU 2093 R-008381650-000X 1797 5 CUGUUGGAUUGAUUCGAAA B CU GUUG GaUUGaU UCgAAA UsU B 2092 R-008381647-000R 1797 5 CUGUUGGAUUGAUUCGAAA B CUGU U GGaU UgaU UCgAaaUsU B 2094 R-008381647-000R 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgAAuCAauCcaaCAgUsU 2095 R-008381624-000E 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGaAUCAauCCAaCAGUsU 2097 R-008381624-000E 1797 5 CUGUUGGAUUGAUUCGAAA B CuGuUgGAUUgaU UCGAaAUsU B 2096 R-008381682-000S 1797 5 CUGUUGGAUUGAUUCGAAA B C UGUUGgAUUGA U UCGaaaUsU B 2098 R-008381682-000S 1797 5 CUGUUGGAUUGAUUCGAAA UUUcgaAUcAAUcCAACagUsU 2099 R-008381622-000M 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAaUcaAUCcaACAgUsU 2101 R-008381622-000M 1797 5 CUGUUGGAUUGAUUCGAAA B CUgUUggaUUgaUUCgaaaUsU B 2100 R-008381680-000Z 2398 151 CCAGGAUGAUCCUAGCUAU AuaGCUAggAUCAuCCuGGUsU 2103 R-008381680-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B C C A GGA UgaUcCUaGCUAU UsU B 2102 R-008381606-000M 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGgaU GaUCCU AgCUA UUsU B 2104 R-008381606-000M 2398 151 CCAGGAUGAUCCUAGCUAU AUAgcuaGgaUCAuCcUGgUsU 2105 R-008381714-000X 2398 151 CCAGGAUGAUCCUAGCUAU aUagCUAGGaUCauccUGgUsU 2106 R-008381714-000X 2398 151 CCAGGAUGAUCCUAGCUAU B CCagG AUgA U CC U AGCUaUUsU B 2107 R-008381642-000X 2398 151 CCAGGAUGAUCCUAGCUAU B CCAG GAUG AU CCUA G C UaUUsU B 2109 R-008381642-000X 2398 151 CCAGGAUGAUCCUAGCUAU aUagCuagGAUCAucCugGUsU 2108 R-008381662-000G 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcUAgGAuCauCCUggUsU 2111 R-008381662-000G 2398 151 CCAGGAUGAUCCUAGCUAU B cC AGgAUGaUCCUagCUAUUsU B 2110 R-008381618-000X 2398 151 CCAGGAUGAUCCUAGCUAU auAgCUaGGAuCauCCUGGUsU 2112 R-008381618-000X 2398 151 CCAGGAUGAUCCUAGCUAU B CCA GGAUGAUC C U A GCU AUUsU B 2113 R-008381698-000L 2398 151 CCAGGAUGAUCCUAGCUAU aUaGCuaggAUcaUcCUGGUsU 2114 R-008381698-000L 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGG A UGAUC C UagC UaUUsU B 2115 R-008381742-000G 2398 151 CCAGGAUGAUCCUAGCUAU B CC AgGAUgaU C CUaGCU A U UsU B 2117 R-008381742-000G 2398 151 CCAGGAUGAUCCUAGCUAU aUagCUAggAuCAuCCuGgUsU 2116 R-008381738-000S 2398 151 CCAGGAUGAUCCUAGCUAU B CCaggaUgaUCCUagCUaU UsU B 2118 R-008381738-000S 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUaGGAUcauCCUgGUsU 2119 R-008381660-000P 2398 151 CCAGGAUGAUCCUAGCUAU B C CAgGAUG AU CCUAGcUA UUsU B 2121 R-008381660-000P 2398 151 CCAGGAUGAUCCUAGCUAU aUagcUAGGAUcaUCCugGUsU 2120 R-008381696-000U 2398 151 CCAGGAUGAUCCUAGCUAU B CCaGGaUG A U C CUA G C U AU UsU B 2123 R-008381696-000U 2398 151 CCAGGAUGAUCCUAGCUAU auAGcUaggauCAUCCuGGUsU 2122 R-008381636-000P 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGgaUCauCcuGGUsU 2125 R-008381636-000P 2398 151 CCAGGAUGAUCCUAGCUAU B CC AGGaUGaUC CuAgCUA UUsU B 2124 R-008381634-000X 2398 151 CCAGGAUGAUCCUAGCUAU AUaGCUagGAucAuCCUgGUsU 2127 R-008381634-000X 2398 151 CCAGGAUGAUCCUAGCUAU B cCAGGaU G AuCCUaGCUaU UsU B 2126 R-008381632-000E 2398 151 CCAGGAUGAUCCUAGCUAU B CCaGgAUgAuC CU AGcU AUUsU B 2129 R-008381632-000E 2398 151 CCAGGAUGAUCCUAGCUAU aUAGCuAGGAUCAUCcUggUsU 2128 R-008381736-000Z 2398 151 CCAGGAUGAUCCUAGCUAU AUaGCuAGGaUcAUcCUggUsU 2131 R-008381736-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B CcaggAugaUC CU AG CUaU UsU B 2130 R-008381600-000K 2398 151 CCAGGAUGAUCCUAGCUAU aUaGcUaggAUCAucCUGGUsU 2132 R-008381600-000K 2398 151 CCAGGAUGAUCCUAGCUAU B CCAgGaU GAUcCUaGC UA U UsU B 2133 R-008381732-000P 2398 151 CCAGGAUGAUCCUAGCUAU aUagCuAGGaUCAuCcUgGUsU 2134 R-008381732-000P 2398 151 CCAGGAUGAUCCUAGCUAU B CCAggaUGAUC C U AgCU AuUsU B 2135 R-008381656-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B C CAGgAUgAU C CUAGcuaUUsU B 2136 R-008381656-000Z 2398 151 CCAGGAUGAUCCUAGCUAU AuagCUAgGauCAUcCUGGUsU 2137 R-008381750-000G 1870 194 ACGACUAGUUCAGUUGCUU aagCAaCUGaAcuAGUCgUUsU 2138 R-008381750-000G 1870 194 ACGACUAGUUCAGUUGCUU B ACgACuAgUUcAGU U GCUU UsU B 2139 R-008381690-000S 1870 194 ACGACUAGUUCAGUUGCUU aAGcAACUgAaCUaGUCguUsU 2140 R-008381690-000S 1870 194 ACGACUAGUUCAGUUGCUU B aC G A CUAGuUCAgUugcUUUsU B 2141 R-008381616-000E 1870 194 ACGACUAGUUCAGUUGCUU AAGcaACuGaaCUaGuCGUUsU 2143 R-008381616-000E 1870 194 ACGACUAGUUCAGUUGCUU B aCGACUagUU CaG UUgCUU UsU B 2142 R-008381688-000U 1870 194 ACGACUAGUUCAGUUGCUU aAgCaAcUGAACUAgUcGUUsU 2144 R-008381688-000U 1870 194 ACGACUAGUUCAGUUGCUU B aCgaCuAGUuC AgU UgcUUUsU B 2145 R-008381614-000M 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguU CAGUUGCU U UsU B 2147 R-008381614-000M 1870 194 ACGACUAGUUCAGUUGCUU aaGCAAcUgAaCuagUcGUUsU 2146 R-008381706-000X 1870 194 ACGACUAGUUCAGUUGCUU B ACGaCUA GUU C A GUU GCuU UsU B 2148 R-008381706-000X 1870 194 ACGACUAGUUCAGUUGCUU AAgCAAcUGaACUaGUcgUUsU 2149 R-008381672-000Z 1870 194 ACGACUAGUUCAGUUGCUU AAgCAacugAAcUagUCGUUsU 2151 R-008381672-000Z 1870 194 ACGACUAGUUCAGUUGCUU B ACgAC U A GUUCaG U UGcU UUsU B 2150 R-008381730-000X 1870 194 ACGACUAGUUCAGUUGCUU AagcAaCUgaaCUAGucgUUsU 2153 R-008381730-000X 1870 194 ACGACUAGUUCAGUUGCUU B acG A CUagUUCagUuGCuU UsU B 2152 R-008381612-000V 1870 194 ACGACUAGUUCAGUUGCUU B aCGAcU A GUU CA GUUgCUUUsU B 2154 R-008381612-000V 1870 194 ACGACUAGUUCAGUUGCUU AaGCaAcUGAacUaGUcGUUsU 2155 R-008381702-000M 1870 194 ACGACUAGUUCAGUUGCUU AAgcaaCUGAACuaGUCGUUsU 2157 R-008381702-000M 1870 194 ACGACUAGUUCAGUUGCUU B A C GA C UaGUUCaGUUgCUU UsU B 2156 R-008381744-000Z 1870 194 ACGACUAGUUCAGUUGCUU B ACGaCUaGU U CA G U U GcUU UsU B 2158 R-008381744-000Z 1870 194 ACGACUAGUUCAGUUGCUU AaGCAACUgaACUAGuCGUUsU 2159 R-008381610-000C 1870 194 ACGACUAGUUCAGUUGCUU aAgCAACUGAacUaGuCgUUsU 2160 R-008381610-000C 1870 194 ACGACUAGUUCAGUUGCUU B ACgAC U AgUUCAgUUgCUUUsU B 2161 R-008381608-000E 1870 194 ACGACUAGUUCAGUUGCUU B ACGaCUaGuUCagUUG CUUUsU B 2162 R-008381608-000E 1870 194 ACGACUAGUUCAGUUGCUU AAgCAACUGaACUaGUCguUsU 2163 R-008381654-000G 1870 194 ACGACUAGUUCAGUUGCUU aAgCAaCuGaAcuaGUCgUUsU 2164 R-008381654-000G 1870 194 ACGACUAGUUCAGUUGCUU B A C GaCUaG UUCaguUgCUuUsU B 2165 R-008381668-000J 1870 194 ACGACUAGUUCAGUUGCUU B A CGAC U AG UUCAGUU G CUU UsU B 2167 R-008381668-000J 1870 194 ACGACUAGUUCAGUUGCUU aAgCAACugAACuaguCgUUsU 2166 R-008381627-000F 1870 194 ACGACUAGUUCAGUUGCUU B aCgaCUAG UUCaGUUG C UUUsU B 2169 R-008381627-000F 1870 194 ACGACUAGUUCAGUUGCUU aAGCAacUgaACUaGUcGUUsU 2168 R-008381719-000R 1870 194 ACGACUAGUUCAGUUGCUU B ACgAcU AgUuC AgUUGCUU UsU B 2170 R-008381719-000R 1870 194 ACGACUAGUUCAGUUGCUU AAGCAAcUGAaCUaGUCGuUsU 2171 R-008381717-000Y 1870 194 ACGACUAGUUCAGUUGCUU B aCgaCUagUUCagUUgCUU UsU B 2173 R-008381717-000Y 1870 194 ACGACUAGUUCAGUUGCUU aaGCAACuGaACUagUcGuUsU 2172 R-008381652-000P 2401 196 GGAUGAUCCUAGCUAUCGU ACgaUAGcuAGgauCAUCcUsU 2175 R-008381652-000P 2401 196 GGAUGAUCCUAGCUAUCGU B gGaugaUcCUaGCuAUCgU UsU B 2174 R-008381684-000J 2401 196 GGAUGAUCCUAGCUAUCGU B GgAUGaUCCuagcU AUCgUUsU B 2177 R-008381684-000J 2401 196 GGAUGAUCCUAGCUAUCGU aCgAUagcuaGGAUcAUCCUsU 2176 R-008381664-000Z 2401 196 GGAUGAUCCUAGCUAUCGU B gGA UgAUCCU A GCuaUC GUUsU B 2179 R-008381664-000Z 2401 196 GGAUGAUCCUAGCUAUCGU aCGauAGCuAgGaUcauCCUsU 2178 R-008381645-000Y 2401 196 GGAUGAUCCUAGCUAUCGU acgAUAGCUaGgAUCAuCCUsU 2180 R-008381645-000Y 2401 196 GGAUGAUCCUAGCUAUCGU B gG A U GAUCCUAgC UauCGUUsU B 2181 R-008381678-000B 2401 196 GGAUGAUCCUAGCUAUCGU ACgaUAgCUaGGAuCAUCcUsU 2183 R-008381678-000B 2401 196 GGAUGAUCCUAGCUAUCGU B ggaUgaUCCUagCUaUCgU UsU B 2182 R-008381620-000V 2401 196 GGAUGAUCCUAGCUAUCGU aCgauAgCUAggAucaUcCUsU 2184 R-008381620-000V 2401 196 GGAUGAUCCUAGCUAUCGU B G GaUGAUCCUAG CUaU CgU UsU B 2185 R-008381712-000E 2401 196 GGAUGAUCCUAGCUAUCGU aCGAuaGCuAGGAuCaUCCUsU 2186 R-008381712-000E 2401 196 GGAUGAUCCUAGCUAUCGU B GGaU G A U C C UaGCUAUCgUUsU B 2187 R-008381710-000M 2401 196 GGAUGAUCCUAGCUAUCGU B gGaUgAU CC UaGCUAUCG UUsU B 2188 R-008381710-000M 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAgcUaGGAUCauCCUsU 2189 R-008381676-000J 2401 196 GGAUGAUCCUAGCUAUCGU aCGAuaGCUAGgAUCaUccUsU 2190 R-008381676-000J 2401 196 GGAUGAUCCUAGCUAUCGU B GgAUGauC CUAGCUAU CguUsU B 2191 R-008381604-000V 2401 196 GGAUGAUCCUAGCUAUCGU B GgaUgAUCcUagCUaUCGuUsU B 2192 R-008381604-000V 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAgCUagGAuCAUCcUsU 2193 R-008381640-000E 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGaU C CUaGCUaUcgU UsU B 2194 R-008381640-000E 2401 196 GGAUGAUCCUAGCUAUCGU AcGAUAGCUAGgaucaUCCUsU 2195 R-008381740-000P 2401 196 GGAUGAUCCUAGCUAUCGU acgAuaGCUagGauCAUcCUsU 2196 R-008381740-000P 2401 196 GGAUGAUCCUAGCUAUCGU B GgAUGA UCCUagCU A UC G U UsU B 2197 R-008381674-000S 2401 196 GGAUGAUCCUAGCUAUCGU B G GAUG AuC CUaG CUAU C GU UsU B 2199 R-008381674-000S 2401 196 GGAUGAUCCUAGCUAUCGU aCgAUagcUAGGAuCAuCCUsU 2198 R-008381694-000B 2401 196 GGAUGAUCCUAGCUAUCGU B GgaU GaUCC UAgCUAUCGUUsU B 2201 R-008381694-000B 2401 196 GGAUGAUCCUAGCUAUCGU aCGAUaGCuAGGauCauCCUsU 2200 R-008381638-000G 2401 196 GGAUGAUCCUAGCUAUCGU B G GA UgA UCC U AgcUAU CgUUsU B 2203 R-008381638-000G 2401 196 GGAUGAUCCUAGCUAUCGU aCGaUagcUAgGAUcAuCcUsUE 2202 R-008381602-000C 2401 196 GGAUGAUCCUAGCUAUCGU B GGaUgaU CCuAG CuA UCGU UsU B 2204 R-008381602-000C 2401 196 GGAUGAUCCUAGCUAUCGU AcGAUaGCUaGGauCAUccUsU 2205 R-008381692-000J 2401 196 GGAUGAUCCUAGCUAUCGU AcgaUagCUAGGAUcAucCUsU 2207 R-008381692-000J 2401 196 GGAUGAUCCUAGCUAUCGU B GG AUGAUCCUagCUAuC GU UsU B 2206 R-008381658-000S 2401 196 GGAUGAUCCUAGCUAUCGU B gGAUgaUCCUAGC UaU C GU UsU B 2208 R-008381658-000S 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUAGcuaggAuCAUcCUsU 2209 R-008381178-000C 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381178-000C 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGaAUCAauccaACAGUsU 2067 R-008380929-000H 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAauCaAUCcAaCaGUsU 2068 R-008380929-000H 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381019-000X 1797 5 CUGUUGGAUUGAUUCGAAA uUUcgAaUCaAuCCAACAGUsU 2070 R-008381019-000X 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381256-000K 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381256-000K 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGaaUCAAUCcAacaGUsU 2073 R-008381552-000E 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381552-000E 1797 5 CUGUUGGAUUGAUUCGAAA UUucGaAUCAAUCcAAcagUsU 2075 R-008381002-000U 1797 5 CUGUUGGAUUGAUUCGAAA uuUCGAAUcaaUCCAAcAgUsU 2076 R-008381002-000U 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381394-000X 1797 5 CUGUUGGAUUGAUUCGAAA uuUcGAAUCaaUcCAACaGUsU 2078 R-008381394-000X 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381383-000W 1797 5 CUGUUGGAUUGAUUCGAAA UUucGAAuCaaUCCAacAGUsU 2081 R-008381383-000W 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381093-000J 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381093-000J 1797 5 CUGUUGGAUUGAUUCGAAA uuuCgaAUCAAUCcAACagUsU 2082 R-008381375-000W 1797 5 CUGUUGGAUUGAUUCGAAA UuuCgAAUCAAUCcaACAGUsU 2085 R-008381375-000W 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381543-000W 1797 5 CUGUUGGAUUGAUUCGAAA UuuCGaauCAaUccaACAGUsU 2087 R-008381543-000W 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381535-000W 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgAauCAAUCcAAcagUsU 2089 R-008381535-000W 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381528-000E 1797 5 CUGUUGGAUUGAUUCGAAA uUuCGAAUCAaUCcaaCAGUsU 2090 R-008381528-000E 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008381365-000D 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381365-000D 1797 5 CUGUUGGAUUGAUUCGAAA UuUCGAAUcaauCCaACaGUsU 2093 R-008381520-000K 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgAAuCAauCcaaCAgUsU 2095 R-008381520-000K 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008380915-000F 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2020 R-008380915-000F 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGaAUCAauCCAaCAGUsU 2097 R-008381359-000W 1797 5 CUGUUGGAUUGAUUCGAAA UUUcgaAUcAAUcCAACagUsU 2099 R-008381359-000W 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUsU B 2021 R-008381249-000U 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAAUsU B 2022 R-008381249-000U 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAaUcaAUCcaACAgUsU 2101 R-008381082-000H 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381082-000H 2398 151 CCAGGAUGAUCCUAGCUAU AuaGCUAggAUCAuCCuGGUsU 2103 R-008381240-000R 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381240-000R 2398 151 CCAGGAUGAUCCUAGCUAU AUAgcuaGgaUCAuCcUGgUsU 2105 R-008380907-000F 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008380907-000F 2398 151 CCAGGAUGAUCCUAGCUAU aUagCUAGGaUCauccUGgUsU 2106 R-008381164-000A 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381164-000A 2398 151 CCAGGAUGAUCCUAGCUAU aUagCuagGAUCAucCugGUsU 2108 R-008381072-000R 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381072-000R 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcUAgGAuCauCCUggUsU 2111 R-008381450-000C 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381450-000C 2398 151 CCAGGAUGAUCCUAGCUAU auAgCUaGGAuCauCCUGGUsU 2112 R-008381059-000S 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381059-000S 2398 151 CCAGGAUGAUCCUAGCUAU aUaGCuaggAUcaUcCUGGUsU 2114 R-008381154-000H 2398 151 CCAGGAUGAUCCUAGCUAU aUagCUAggAuCAuCCuGgUsU 2116 R-008381154-000H 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381443-000L 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUaGGAUcauCCUgGUsU 2119 R-008381443-000L 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381049-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381049-000Z 2398 151 CCAGGAUGAUCCUAGCUAU aUagcUAGGAUcaUCCugGUsU 2120 R-008381292-000V 2398 151 CCAGGAUGAUCCUAGCUAU auAGcUaggauCAUCCuGGUsU 2122 R-008381292-000V 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381010-000U 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGgaUCauCcuGGUsU 2125 R-008381010-000U 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381284-000V 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381284-000V 2398 151 CCAGGAUGAUCCUAGCUAU AUaGCUagGAucAuCCUgGUsU 2127 R-008381417-000U 2398 151 CCAGGAUGAUCCUAGCUAU aUAGCuAGGAUCAUCcUggUsU 2128 R-008381417-000U 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381265-000U 2398 151 CCAGGAUGAUCCUAGCUAU AUaGCuAGGaUcAUcCUggUsU 2131 R-008381265-000U 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381464-000E 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2033 R-008381464-000E 2398 151 CCAGGAUGAUCCUAGCUAU aUaGcUaggAUCAucCUGGUsU 2132 R-008381170-000H 2398 151 CCAGGAUGAUCCUAGCUAU aUagCuAGGaUCAuCcUgGUsU 2134 R-008381170-000H 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGGAUGAUCCUAGCUAUUsU B 2034 R-008381408-000K 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuUsU B 2035 R-008381408-000K 2398 151 CCAGGAUGAUCCUAGCUAU AuagCUAgGauCAUcCUGGUsU 2137 R-008381110-000D 1870 194 ACGACUAGUUCAGUUGCUU aagCAaCUGaAcuAGUCgUUsU 2138 R-008381110-000D 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381558-000G 1870 194 ACGACUAGUUCAGUUGCUU aAGcAACUgAaCUaGUCguUsU 2140 R-008381558-000G 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381456-000E 1870 194 ACGACUAGUUCAGUUGCUU AAGcaACuGaaCUaGuCGUUsU 2143 R-008381456-000E 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381401-000Z 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381401-000Z 1870 194 ACGACUAGUUCAGUUGCUU aAgCaAcUGAACUAgUcGUUsU 2144 R-008380922-000X 1870 194 ACGACUAGUUCAGUUGCUU aaGCAAcUgAaCuagUcGUUsU 2146 R-008380922-000X 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381101-000V 1870 194 ACGACUAGUUCAGUUGCUU AAgCAAcUGaACUaGUcgUUsU 2149 R-008381101-000V 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381556-000P 1870 194 ACGACUAGUUCAGUUGCUU AAgCAacugAAcUagUCGUUsU 2151 R-008381556-000P 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381426-000C 1870 194 ACGACUAGUUCAGUUGCUU AagcAaCUgaaCUAGucgUUsU 2153 R-008381426-000C 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008380979-000V 1870 194 ACGACUAGUUCAGUUGCUU AaGCaAcUGAacUaGUcGUUsU 2155 R-008380979-000V 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008380882-000S 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008380882-000S 1870 194 ACGACUAGUUCAGUUGCUU AAgcaaCUGAACuaGUCGUUsU 2157 R-008381204-000F 1870 194 ACGACUAGUUCAGUUGCUU AaGCAACUgaACUAGuCGUUsU 2159 R-008381204-000F 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381471-000W 1870 194 ACGACUAGUUCAGUUGCUU aAgCAACUGAacUaGuCgUUsU 2160 R-008381471-000W 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381197-000D 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008381197-000D 1870 194 ACGACUAGUUCAGUUGCUU AAgCAACUGaACUaGUCguUsU 2163 R-008380970-000S 1870 194 ACGACUAGUUCAGUUGCUU aAgCAaCuGaAcuaGUCgUUsU 2164 R-008380970-000S 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381511-000B 1870 194 ACGACUAGUUCAGUUGCUU aAgCAACugAACuaguCgUUsU 2166 R-008381511-000B 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008380992-000U 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2046 R-008380992-000U 1870 194 ACGACUAGUUCAGUUGCUU aAGCAacUgaACUaGUcGUUsU 2168 R-008381233-000Z 1870 194 ACGACUAGUUCAGUUGCUU AAGCAAcUGAaCUaGUCGuUsU 2171 R-008381233-000Z 1870 194 ACGACUAGUUCAGUUGCUU B ACGACUAGUUCAGUUGCUUUsU B 2047 R-008381352-000K 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuUsU B 2048 R-008381352-000K 1870 194 ACGACUAGUUCAGUUGCUU aaGCAACuGaACUagUcGuUsU 2172 R-008380987-000V 2401 196 GGAUGAUCCUAGCUAUCGU ACgaUAGcuAGgauCAUCcUsU 2175 R-008380987-000V 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008381345-000U 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381345-000U 2401 196 GGAUGAUCCUAGCUAUCGU aCgAUagcuaGGAUcAUCCUsU 2176 R-008381146-000H 2401 196 GGAUGAUCCUAGCUAUCGU aCGauAGCuAgGaUcauCCUsU 2178 R-008381146-000H 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008381503-000B 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008381503-000B 2401 196 GGAUGAUCCUAGCUAUCGU acgAUAGCUaGgAUCAuCCUsU 2180 R-008381137-000Z 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381137-000Z 2401 196 GGAUGAUCCUAGCUAUCGU ACgaUAgCUaGGAuCAUCcUsU 2183 R-008381337-000U 2401 196 GGAUGAUCCUAGCUAUCGU aCgauAgCUAggAucaUcCUsU 2184 R-008381337-000U 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380900-000V 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008380900-000V 2401 196 GGAUGAUCCUAGCUAUCGU aCGAuaGCuAGGAuCaUCCUsU 2186 R-008381328-000K 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381328-000K 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAgcUaGGAUCauCCUsU 2189 R-008381222-000Y 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008381222-000Y 2401 196 GGAUGAUCCUAGCUAUCGU aCGAuaGCUAGgAUCaUccUsU 2190 R-008381494-000G 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAgCUagGAuCAUCcUsU 2193 R-008381494-000G 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008381212-000F 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381212-000F 2401 196 GGAUGAUCCUAGCUAUCGU AcGAUAGCUAGgaucaUCCUsU 2195 R-008381434-000C 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008381434-000C 2401 196 GGAUGAUCCUAGCUAUCGU acgAuaGCUagGauCAUcCUsU 2196 R-008380895-000K 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008380895-000K 2401 196 GGAUGAUCCUAGCUAUCGU aCgAUagcUAGGAuCAuCCUsU 2198 R-008381488-000Z 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008381488-000Z 2401 196 GGAUGAUCCUAGCUAUCGU aCGAUaGCuAGGauCauCCUsU 2200 R-008381126-000Y 2401 196 GGAUGAUCCUAGCUAUCGU aCGaUagcUAgGAUcAuCcUsU 2202 R-008381126-000Y 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008381479-000R 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2059 R-008381479-000R 2401 196 GGAUGAUCCUAGCUAUCGU AcGAUaGCUaGGauCAUccUsU 2205 R-008381319-000B 2401 196 GGAUGAUCCUAGCUAUCGU AcgaUagCUAGGAUcAucCUsU 2207 R-008381319-000B 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGAUCCUAGCUAUCGUUsU B 2060 R-008380889-000C 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuUsU B 2061 R-008380889-000C 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUAGcuaggAuCAUcCUsU 2209 R-008381831-000R 1797 5 CUGUUGGAUUGAUUCGAAA B CUgUuG GAUU GAUUCGaA AUsU B 2066 R-008381831-000R 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381842-000S 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUuG GaUUGaUUCGAAaUsU B 2069 R-008381842-000S 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381850-000S 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUuGgaUUG AUuCGaA A UsU B 2071 R-008381850-000S 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAAucAAuccAAcAGUsU 2016 R-008381815-000R 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2023 R-008381815-000R 1797 5 CUGUUGGAUUGAUUCGAAA B C UgUUGgaUUGaUUCgA A A UsU B 2072 R-008381783-000K 1797 5 CUGUUGGAUUGAUUCGAAA B CUgU UGG A UUG AUuCgA AAUsU B 2074 R-008381783-000K 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2023 R-008381799-000E 1797 5 CUGUUGGAUUGAUUCGAAA B CuG U UGgaUUgAuUCG AaaUsU B 2077 R-008381799-000E 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2023 R-008381814-000G 1797 5 CUGUUGGAUUGAUUCGAAA B C UgUUg GaUU G AU UCGaaA UsU B 2079 R-008381814-000G 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2024 R-008381780-000J 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2024 R-008381780-000J 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGG AU U GaUU C GAaAUsU B 2080 R-008381841-000H 1797 5 CUGUUGGAUUGAUUCGAAA B CUgU U GgA UugAUUCgAAaUsU B 2083 R-008381841-000H 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2024 R-008381791-000K 1797 5 CUGUUGGAUUGAUUCGAAA B CugUUGG A UUGaUUcgaaaUsU B 2084 R-008381791-000K 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2025 R-008381839-000K 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2025 R-008381839-000K 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUgGaUugAUuCGaAAUsU B 2086 R-008381796-000D 1797 5 CUGUUGGAUUGAUUCGAAA B CUG U UgGA U UG A UUCgA A AUsU B 2088 R-008381796-000D 1797 5 CUGUUGGAUUGAUUCGAAA UUUCGAAUCAAUCCAACAGUsU 2025 R-008381838-000B 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381838-000B 1797 5 CUGUUGGAUUGAUUCGAAA B CUgU UggAUUgaUUCGaAA UsU B 2091 R-008381790-000B 1797 5 CUGUUGGAUUGAUUCGAAA B CU GUUG GaUUGaU UCgAAA UsU B 2092 R-008381790-000B 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381825-000H 1797 5 CUGUUGGAUUGAUUCGAAA B CUGU U GGaU UgaU UCgAaaUsU B 2094 R-008381825-000H 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUsU 2019 R-008381789-000M 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2026 R-008381789-000M 1797 5 CUGUUGGAUUGAUUCGAAA B CuGuUgGAUUgaU UCGAaAUsU B 2096 R-008381805-000Y 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2026 R-008381805-000Y 1797 5 CUGUUGGAUUGAUUCGAAA B C UGUUGgAUUGA U UCGaaaUsU B 2098 R-008381788-000D 1797 5 CUGUUGGAUUGAUUCGAAA UUUCgaaUCaaUCCaaCagUsU 2026 R-008381788-000D 1797 5 CUGUUGGAUUGAUUCGAAA B CUgUUggaUUgaUUCgaaaUsU B 2100 R-008381847-000K 2398 151 CCAGGAUGAUCCUAGCUAU B C C A GGA UgaUcCUaGCUAU UsU B 2102 R-008381847-000K 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008381837-000T 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008381837-000T 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGgaU GaUCCU AgCUA UUsU B 2104 R-008381824-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B CCagG AUgA U CC U AGCUaUUsU B 2107 R-008381824-000Z 2398 151 CCAGGAUGAUCCUAGCUAU AuAGcuAGGAucAuccuGGUsU 2030 R-008381810-000X 2398 151 CCAGGAUGAUCCUAGCUAU B CCAG GAUG AU CCUA G C UaUUsU B 2109 R-008381810-000X 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2036 R-008381802-000X 2398 151 CCAGGAUGAUCCUAGCUAU B cC AGgAUGaUCCUagCUA UUsU B 2110 R-008381802-000X 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2036 R-008381820-000P 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2036 R-008381820-000P 2398 151 CCAGGAUGAUCCUAGCUAU B CCA GGAUGAUC C U A GCU AUUsU B 2113 R-008381819-000A 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2037 R-008381819-000A 2398 151 CCAGGAUGAUCCUAGCUAU B CCAGG A UGAUC C UagC UaUUsU B 2115 R-008381787-000V 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2037 R-008381787-000V 2398 151 CCAGGAUGAUCCUAGCUAU B CC AgGAUgaU C CUaGCU A U UsU B 2117 R-008381835-000A 2398 151 CCAGGAUGAUCCUAGCUAU B CCaggaUgaUCCUagCUaU UsU B 2118 R-008381835-000A 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2037 R-008381844-000J 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2038 R-008381844-000J 2398 151 CCAGGAUGAUCCUAGCUAU B C C AgGAUG AU CCUAGcUA UUsU B 2121 R-008381853-000T 2398 151 CCAGGAUGAUCCUAGCUAU B CCaGGaUG A U CCUA G C U AU UsU B 2123 R-008381853-000T 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2038 R-008381833-000H 2398 151 CCAGGAUGAUCCUAGCUAU B CC AGGaUGaUC CuAgCUA UUsU B 2124 R-008381833-000H 2398 151 CCAGGAUGAUCCUAGCUAU AUAGCUAGGAUCAUCCUGGUsU 2038 R-008381817-000H 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008381817-000H 2398 151 CCAGGAUGAUCCUAGCUAU B cCAGGaU G AuCCUaGCUaU UsU B 2126 R-008381786-000L 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008381786-000L 2398 151 CCAGGAUGAUCCUAGCUAU B CCaGgAUgAuCCU AGcU AUUsU B 2129 R-008381851-000A 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUsU 2032 R-008381851-000A 2398 151 CCAGGAUGAUCCUAGCUAU B CcaggAugaUCCU AG CUaU UsU B 2130 R-008381809-000H 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2039 R-008381809-000H 2398 151 CCAGGAUGAUCCUAGCUAU B CCAgGaU GAUcCUaGC UA U UsU B 2133 R-008381808-000Z 2398 151 CCAGGAUGAUCCUAGCUAU B CCAggaUGAUC C U AgCU AuUsU B 2135 R-008381808-000Z 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2039 R-008381784-000U 2398 151 CCAGGAUGAUCCUAGCUAU AUAgCUaggaUCaUCCUggUsU 2039 R-008381784-000U 2398 151 CCAGGAUGAUCCUAGCUAU B C CAGgAUgAU CCUAGcuaUUsU B 2136 R-008381793-000C 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008381793-000C 1870 194 ACGACUAGUUCAGUUGCUU B ACgACuAg UUcAGU U GCUU UsU B 2139 R-008381807-000R 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008381807-000R 1870 194 ACGACUAGUUCAGUUGCUU B aC G A CUAGuUCAgUugcUUUsU B 2141 R-008381816-000Z 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2043 R-008381816-000Z 1870 194 ACGACUAGUUCAGUUGCUU B aCGACUagUU CaG UUgCUU U s U  B 2142 R-008381830-000G 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2049 R-008381830-000G 1870 194 ACGACUAGUUCAGUUGCUU B aCgaCuAGUuC AgU UgcUUUsU B 2145 R-008381782-000B 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguUCAGUUGCU U UsU B 2147 R-008381782-000B 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2049 R-008381849-000C 1870 194 ACGACUAGUUCAGUUGCUU B ACGaCUA GUU C A GUU GCuU UsU B 2148 R-008381849-000C 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2049 R-008381781-000T 1870 194 ACGACUAGUUCAGUUGCUU B ACgAC U A GUUCaG U UGcU UUsU B 2150 R-008381781-000T 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2050 R-008381829-000T 1870 194 ACGACUAGUUCAGUUGCUU B acG A CUagUUCagUuGCuU UsU B 2152 R-008381829-000T 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2050 R-008381792-000U 1870 194 ACGACUAGUUCAGUUGCUU B aCGAcU A GUU CA GUUgCUUUsU B 2154 R-008381792-000U 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2050 R-008381798-000W 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2051 R-008381798-000W 1870 194 ACGACUAGUUCAGUUGCUU B A C GA C UaGUUCaGUUgCUU UsU B 2156 R-008381828-000J 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2051 R-008381828-000J 1870 194 ACGACUAGUUCAGUUGCUU B A CGaCUaGU U CA G U U GcUU UsU B 2158 R-008381840-000Z 1870 194 ACGACUAGUUCAGUUGCUU AAGCAACUGAACUAGUCGUUsU 2051 R-008381840-000Z 1870 194 ACGACUAGUUCAGUUGCUU B ACgAC U AgUUCAgUUgCUUUsU B 2161 R-008381797-000M 1870 194 ACGACUAGUUCAGUUGCUU B ACGaCUaGuUCagUUG CUUUsU B 2162 R-008381797-000M 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008381813-000Y 1870 194 ACGACUAGUUCAGUUGCUU B A C GaCUaG UUCaguUgCUuUsU B 2165 R-008381813-000Y 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008381827-000A 1870 194 ACGACUAGUUCAGUUGCUU B A CGAC U AG UUCAGUU G CUU UsU B 2167 R-008381827-000A 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUsU 2045 R-008381812-000P 1870 194 ACGACUAGUUCAGUUGCUU B aCgaCUAG UUCaGUUG C UUUsU B 2169 R-008381812-000P 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2052 R-008381848-000U 1870 194 ACGACUAGUUCAGUUGCUU B ACgAcU AgUuC AgUUGCUU UsU B 2170 R-008381848-000U 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2052 R-008381779-000V 1870 194 ACGACUAGUUCAGUUGCUU B aCgaCUagUUCagUUgCUU UsU B 2173 R-008381779-000V 1870 194 ACGACUAGUUCAGUUGCUU AAGCaaCUgaaCUagUCgUUsU 2052 R-008381846-000B 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008381846-000B 2401 196 GGAUGAUCCUAGCUAUCGU B gGaugaUcCUaGCuAUCgU UsU B 2174 R-008381811-000F 2401 196 GGAUGAUCCUAGCUAUCGU B GgAUGaUCCuagcU AUCgUUsU B 2177 R-008381811-000F 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008381845-000T 2401 196 GGAUGAUCCUAGCUAUCGU B gGA UgAUCCU A GCuaUC GUUsU B 2179 R-008381845-000T 2401 196 GGAUGAUCCUAGCUAUCGU AcGAuAGcuAGGAucAuccUsU 2056 R-008381795-000V 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2062 R-008381795-000V 2401 196 GGAUGAUCCUAGCUAUCGU B gG A U GAUCCUAgC UauCGUUsU B 2181 R-008381823-000R 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2062 R-008381823-000R 2401 196 GGAUGAUCCUAGCUAUCGU B ggaUgaUCCUagCUaUCgU UsU B 2182 R-008381803-000F 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2062 R-008381803-000F 2401 196 GGAUGAUCCUAGCUAUCGU B G GaUGAUCCUAG CUaU CgU UsU B 2185 R-008381822-000G 2401 196 GGAUGAUCCUAGCUAUCGU B GGaU G A U C C UaGCUAUCgUUsU B 2187 R-008381822-000G 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2063 R-008381836-000J 2401 196 GGAUGAUCCUAGCUAUCGU B gGaUgAU CC UaGCUAUCG UUsU B 2188 R-008381836-000J 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2063 R-008381854-000B 2401 196 GGAUGAUCCUAGCUAUCGU B GgAUGauC CUAGCUAU CguUsU B 2191 R-008381854-000B 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2063 R-008381801-000N 2401 196 GGAUGAUCCUAGCUAUCGU B GgaUgAUCcUagCUaUCGuUsU B 2192 R-008381801-000N 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2064 R-008381800-000E 2401 196 GGAUGAUCCUAGCUAUCGU B GGAUGaU C CUaGCUaUcgU UsU B 2194 R-008381800-000E 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2064 R-008381834-000S 2401 196 GGAUGAUCCUAGCUAUCGU B GgAUGA UCCUagCU A UC G U UsU B 2197 R-008381834-000S 2401 196 GGAUGAUCCUAGCUAUCGU ACGAUAGCUAGGAUCAUCCUsU 2064 R-008381852-000J 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008381852-000J 2401 196 GGAUGAUCCUAGCUAUCGU B G GAUG AuC CUaG CUAU C GU UsU B 2199 R-008381843-000A 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008381843-000A 2401 196 GGAUGAUCCUAGCUAUCGU B GgaU GaUCC UAgCUAUCGUUsU B 2201 R-008381832-000Z 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUsU 2058 R-008381832-000Z 2401 196 GGAUGAUCCUAGCUAUCGU B G GA UgA UCC U AgcUAU CgUUsU B 2203 R-008381818-000S 2401 196 GGAUGAUCCUAGCUAUCGU B GGaUgaU CCuAG CuA UCGU UsU B 2204 R-008381818-000S 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2065 R-008381785-000C 2401 196 GGAUGAUCCUAGCUAUCGU B GG AUGAUCCUagCUAuC GU UsU B 2206 R-008381785-000C 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2065 R-008381794-000L 2401 196 GGAUGAUCCUAGCUAUCGU ACGaUagCUaggaUCaUCCUsU 2065 R-008381794-000L 2401 196 GGAUGAUCCUAGCUAUCGU B gGAUgaUCCUAGC UaU C GU UsU B 2208 R-008395187-000D 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395187-000D 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAucAAuccAAcAGUU 1463 R-008395244-000T 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395244-000T 1797 5 CUGUUGGAUUGAUUCGAAA IUUcGAAucAAuccAAcAGUU 2211 R-008395198-000E 1797 5 CUGUUGGAUUGAUUCGAAA UIUcGAAucAAuccAAcAGUU 2212 R-008395198-000E 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395222-000R 1797 5 CUGUUGGAUUGAUUCGAAA UUIcGAAucAAuccAAcAGUU 2213 R-008395222-000R 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395155-000J 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395155-000J 1797 5 CUGUUGGAUUGAUUCGAAA UUUIGAAucAAuccAAcAGUU 2214 R-008395242-000A 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395242-000A 1797 5 CUGUUGGAUUGAUUCGAAA UUUcIAAucAAuccAAcAGUU 2215 R-008395267-000D 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395267-000D 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGIAucAAuccAAcAGUU 2216 R-008395153-000S 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395153-000S 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAIucAAuccAAcAGUU 2217 R-008395286-000E 1797 5 CUGUUGGAUUGAUUCGAAA B cuGuuGGAuuGAuucGAAA TT B 2210 R-008395286-000E 1797 5 CUGUUGGAUUGAUUCGAAA UUUcGAAIcAAuccAAcAGUU 2218 R-008395196-000M 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395196-000M 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcuGAAcuAGucGuUU 1841 R-008395168-000C 1870 194 ACGACUAGUUCAGUUGCUU IAGcAAcuGAAcuAGucGuUU 2220 R-008395168-000C 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395265-000L 1870 194 ACGACUAGUUCAGUUGCUU AIGcAAcuGAAcuAGucGuUU 2221 R-008395265-000L 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395150-000R 1870 194 ACGACUAGUUCAGUUGCUU AAIcAAcuGAAcuAGucGuUU 2222 R-008395150-000R 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395263-000U 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395263-000U 1870 194 ACGACUAGUUCAGUUGCUU AAGIAAcuGAAcuAGucGuUU 2223 R-008395172-000T 1870 194 ACGACUAGUUCAGUUGCUU AAGcIAcuGAAcuAGucGuUU 2224 R-008395172-000T 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395170-000A 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395170-000A 1870 194 ACGACUAGUUCAGUUGCUU AAGcAIcuGAAcuAGucGuUU 2225 R-008395226-000A 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395226-000A 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAIuGAAcuAGucGuUU 2226 R-008395207-000Z 1870 194 ACGACUAGUUCAGUUGCUU AAGcAAcIGAAcuAGucGuUU 2227 R-008395207-000Z 1870 194 ACGACUAGUUCAGUUGCUU B AcGAcuAGuucAGuuGcuuTT B 2219 R-008395205-000G 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAGGAucAuccuGGUU 1755 R-008395205-000G 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395250-000A 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395250-000A 2398 151 CCAGGAUGAUCCUAGCUAU IUAGcuAGGAucAuccuGGUU 2229 R-008395248-000C 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395248-000C 2398 151 CCAGGAUGAUCCUAGCUAU AIAGcuAGGAucAuccuGGUU 2230 R-008395275-000D 2398 151 CCAGGAUGAUCCUAGCUAU AUIGcuAGGAucAuccuGGUU 2231 R-008395275-000D 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395163-000J 2398 151 CCAGGAUGAUCCUAGCUAU AUAIcuAGGAucAuccuGGUU 2232 R-008395163-000J 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395224-000H 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395224-000H 2398 151 CCAGGAUGAUCCUAGCUAU AUAGIuAGGAucAuccuGGUU 2233 R-008395161-000S 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcIAGGAucAuccuGGUU 2234 R-008395161-000S 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395290-000V 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395290-000V 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuIGGAucAuccuGGUU 2235 R-008395273-000L 2398 151 CCAGGAUGAUCCUAGCUAU B ccAGGAuGAuccuAGcuAuTT B 2228 R-008395273-000L 2398 151 CCAGGAUGAUCCUAGCUAU AUAGcuAIGAucAuccuGGUU 2236 R-008395188-000M 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGcuAGGAucAuccUU 1845 R-008395188-000M 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395204-000Y 2401 196 GGAUGAUCCUAGCUAUCGU ICGAuAGcuAGGAucAuccUU 2238 R-008395204-000Y 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395202-000F 2401 196 GGAUGAUCCUAGCUAUCGU AIGAuAGcuAGGAucAuccUU 2239 R-008395202-000F 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395158-000K 2401 196 GGAUGAUCCUAGCUAUCGU ACIAuAGcuAGGAucAuccUU 2240 R-008395158-000K 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395246-000K 2401 196 GGAUGAUCCUAGCUAUCGU ACGIuAGcuAGGAucAuccUU 2241 R-008395246-000K 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395271-000U 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395271-000U 2401 196 GGAUGAUCCUAGCUAUCGU ACGAIAGcuAGGAucAuccUU 2242 R-008395200-000N 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuIGcuAGGAucAuccUU 2243 R-008395200-000N 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395288-000X 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008395288-000X 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAIcuAGGAucAuccUU 2244 R-008395269-000W 2401 196 GGAUGAUCCUAGCUAUCGU ACGAuAGIuAGGAucAuccUU 2245 R-008395269-000W 2401 196 GGAUGAUCCUAGCUAUCGU B GGAuGAuccuAGcuAucGuTT B 2237 R-008397891-000B 1382 238 GAUCCAAGUCAACGUCUUG B GAUCCAAGUCAACGUCUUGTT B 2246 R-008397891-000B 1382 238 GAUCCAAGUCAACGUCUUG CAAGACGUUGACUUGGAUCUU 2247 R-008397894-000C 828 239 CUAUCAUGCGUUCUCCUCA B CUAUCAUGCGUUCUCCUCATT B 2248 R-008397894-000C 828 239 CUAUCAUGCGUUCUCCUCA UGAGGAGAACGCAUGAUAGUU 2249 R-008396925-000E 1244 240 AAUAUAAUGAGGACCUAUA B AAUAUAAUGAGGACCUAUATT B 2250 R-008396925-000E 1244 240 AAUAUAAUGAGGACCUAUA UAUAGGUCCUCAUUAUAUUUU 2251 R-008395941-000K 1304 241 GUGCUAUCUGUCUGCUCUA B GUGCUAUCUGUCUGCUCUATT B 2252 R-008395941-000K 1304 241 GUGCUAUCUGUCUGCUCUA UAGAGCAGACAGAUAGCACUU 2253 R-008395944-000L 812 242 GAAGCUUCCAGACACGCUA B GAAGCUUCCAGACACGCUATT B 2254 R-008395944-000L 812 242 GAAGCUUCCAGACACGCUA UAGCGUGUCUGGAAGCUUCUU 2255 R-008397498-000Y 1558 243 UAAUUAUAAGAACAAGAUG B UAAUUAUAAGAACAAGAUGTT B 2256 R-008397498-000Y 1558 243 UAAUUAUAAGAACAAGAUG CAUCUUGUUCUUAUAAUUAUU 2257 R-008397501-000R 879 244 AUACAAAUGAUGUAGAAAC B AUACAAAUGAUGUAGAAACTT B 2258 R-008397501-000R 879 244 AUACAAAUGAUGUAGAAAC GUUUCUACAUCAUUUGUAUUU 2259 R-008396451-000Y 1311 245 CUGUCUGCUCUAGUAAUAA UUAUUACUAGAGCAGACAGUU 2261 R-008396451-000Y 1311 245 CUGUCUGCUCUAGUAAUAA B CUGUCUGCUCUAGUAAUAATT B 2260 R-008397504-000S 856 246 UGCUAUUGUACGUACCAUG B UGCUAUUGUACGUACCAUGTT B 2262 R-008397504-000S 856 246 UGCUAUUGUACGUACCAUG CAUGGUACGUACAAUAGCAUU 2263 R-008396961-000P 1296 247 UGCUGAAGGUGCUAUCUGU B UGCUGAAGGUGCUAUCUGUTT B 2264 R-008396961-000P 1296 247 UGCUGAAGGUGCUAUCUGU ACAGAUAGCACCUUCAGCAUU 2265 R-008396967-000S 1235 39 GCUUUAGUAAAUAUAAUGA B GCUUUAGUAAAUAUAAUGATT B 2266 R-008396967-000S 1235 39 GCUUUAGUAAAUAUAAUGA UCAUUAUAUUUACUAAAGCUU 2267 R-008396463-000H 960 248 UCUUUAAGUCUGGAGGCAU AUGCCUCCAGACUUAAAGAUU 2269 R-008396463-000H 960 248 UCUUUAAGUCUGGAGGCAU B UCUUUAAGUCUGGAGGCAUTT B 2268 R-008398998-000S 2049 249 AUACCAUUCCAUUGUUUGU B AUACCAUUCCAUUGUUUGUTT B 2270 R-008398998-000S 2049 249 AUACCAUUCCAUUGUUUGU ACAAACAAUGGAAUGGUAUUU 2271 R-008398515-000M 1791 250 AGGCUACUGUUGGAUUGAU AUCAAUCCAACAGUAGCCUUU 2273 R-008398515-000M 1791 250 AGGCUACUGUUGGAUUGAU B AGGCUACUGUUGGAUUGAUTT B 2272 R-008395947-000M 783 251 CAGUUAUGGUCCAUCAGCU B CAGUUAUGGUCCAUCAGCUTT B 2274 R-008395947-000M 783 251 CAGUUAUGGUCCAUCAGCU AGCUGAUGGACCAUAACUGUU 2275 R-008396466-000J 1569 252 ACAAGAUGAUGGUCUGCCA B ACAAGAUGAUGGUCUGCCATT B 2276 R-008396466-000J 1569 252 ACAAGAUGAUGGUCUGCCA UGGCAGACCAUCAUCUUGUUU 2277 R-008396970-000Y 2224 253 GACAUAUGCAGCUGCUGUU AACAGCAGCUGCAUAUGUCUU 2279 R-008396970-000Y 2224 253 GACAUAUGCAGCUGCUGUU B GACAUAUGCAGCUGCUGUUTT B 2278 R-008395989-000Z 1882 123 GUUGCUUGUUCGUGCACAU B GUUGCUUGUUCGUGCACAUTT B 2280 R-008395989-000Z 1882 123 GUUGCUUGUUCGUGCACAU AUGUGCACGAACAAGCAACUU 2281 R-008398626-000Y 934 254 CCAUCAUCGUGAGGGCUUA B CCAUCAUCGUGAGGGCUUATT B 2282 R-008398626-000Y 934 254 CCAUCAUCGUGAGGGCUUA UAAGCCCUCACGAUGAUGGUU 2283 R-008396121-000S 1378 255 GACAGAUCCAAGUCAACGU B GACAGAUCCAAGUCAACGUTT B 2284 R-008396121-000S 1378 255 GACAGAUCCAAGUCAACGU ACGUUGACUUGGAUCUGUCUU 2285 R-008396001-000X 569 256 GAGACAUUAGAUGAGGGCA UGCCCUCAUCUAAUGUCUCUU 2287 R-008396001-000X 569 256 GAGACAUUAGAUGAGGGCA B GAGACAUUAGAUGAGGGCATT B 2286 R-008396007-000Z 1722 257 UUCGCCUUCACUAUGGACU B UUCGCCUUCACUAUGGACUTT B 2288 R-008396007-000Z 1722 257 UUCGCCUUCACUAUGGACU AGUCCAUAGUGAAGGCGAAUU 2289 R-008396547-000T 1483 258 UGUUCAGCUUCUGGGUUCA B UGUUCAGCUUCUGGGUUCATT B 2290 R-008396547-000T 1483 258 UGUUCAGCUUCUGGGUUCA UGAACCCAGAAGCUGAACAUU 2291 R-008399088-000F 2352 259 AUCUUGGACUUGAUAUUGG CCAAUAUCAAGUCCAAGAUUU 2293 R-008399088-000F 2352 259 AUCUUGGACUUGAUAUUGG B AUCUUGGACUUGAUAUUGGTT B 2292 R-008398596-000K 719 260 CGUGCAAUCCCUGAACUGA B CGUGCAAUCCCUGAACUGATT B 2294 R-008398596-000K 719 260 CGUGCAAUCCCUGAACUGA UCAGUUCAGGGAUUGCACGUU 2295 R-008399094-000N 762 261 AGGUGGUGGUUAAUAAGGC B AGGUGGUGGUUAAUAAGGCTT B 2296 R-008399094-000N 762 261 AGGUGGUGGUUAAUAAGGC GCCUUAUUAACCACCACCUUU 2297 R-008397585-000P 599 262 UCUACACAGUUUGAUGCUG B UCUACACAGUUUGAUGCUGTT B 2298 R-008397585-000P 599 262 UCUACACAGUUUGAUGCUG CAGCAUCAAACUGUGUAGAUU 2299 R-008396073-000L 1704 263 AGAUGGCCCAGAAUGCAGU B AGAUGGCCCAGAAUGCAGUTT B 2300 R-008396073-000L 1704 263 AGAUGGCCCAGAAUGCAGU ACUGCAUUCUGGGCCAUCUUU 2301 R-008398599-000L 2270 264 CAAGAUUACAAGAAACGGC GCCGUUUCUUGUAAUCUUGUU 2303 R-008398599-000L 2270 264 CAAGAUUACAAGAAACGGC B CAAGAUUACAAGAAACGGCTT B 2302 R-008399532-000R 1810 103 UCGAAAUCUUGCCCUUUGU ACAAAGGGCAAGAUUUCGAUU 2305 R-008399532-000R 1810 103 UCGAAAUCUUGCCCUUUGU B UCGAAAUCUUGCCCUUUGUTT B 2304 R-008398602-000D 662 265 CUGAAACAUGCAGUUGUAA B CUGAAACAUGCAGUUGUAATT B 2306 R-008398602-000D 662 265 CUGAAACAUGCAGUUGUAA UUACAACUGCAUGUUUCAGUU 2307 R-008399106-000J 396 266 CUCCUUCUCUGAGUGGUAA UUACCACUCAGAGAAGGAGUU 2309 R-008399106-000J 396 266 CUCCUUCUCUGAGUGGUAA B CUCCUUCUCUGAGUGGUAATT B 2308 R-008398053-000R 1199 267 AGCAAGCUCAUCAUACUGG CCAGUAUGAUGAGCUUGCUUU 2311 R-008398053-000R 1199 267 AGCAAGCUCAUCAUACUGG B AGCAAGCUCAUCAUACUGGTT B 2310 R-008396583-000C 1560 268 AUUAUAAGAACAAGAUGAU B AUUAUAAGAACAAGAUGAUTT B 2312 R-008396583-000C 1560 268 AUUAUAAGAACAAGAUGAU AUCAUCUUGUUCUUAUAAUUU 2313 R-008399028-000B 593 92 AUCCCAUCUACACAGUUUG CAAACUGUGUAGAUGGGAUUU 2315 R-008399028-000B 593 92 AUCCCAUCUACACAGUUUG B AUCCCAUCUACACAGUUUGTT B 2314 R-008398104-000X 1310 269 UCUGUCUGCUCUAGUAAUA B UCUGUCUGCUCUAGUAAUATT B 2316 R-008398104-000X 1310 269 UCUGUCUGCUCUAGUAAUA UAUUACUAGAGCAGACAGAUU 2317 R-008398113-000F 1233 270 AAGCUUUAGUAAAUAUAAU B AAGCUUUAGUAAAUAUAAUTT B 2318 R-008398113-000F 1233 270 AAGCUUUAGUAAAUAUAAU AUUAUAUUUACUAAAGCUUUU 2319 R-008399622-000H 1330 271 GCCGGCUAUUGUAGAAGCU B GCCGGCUAUUGUAGAAGCUTT B 2320 R-008399622-000H 1330 271 GCCGGCUAUUGUAGAAGCU AGCUUCUACAAUAGCCGGCUU 2321 R-008399151-000C 1312 272 UGUCUGCUCUAGUAAUAAG B UGUCUGCUCUAGUAAUAAGTT B 2322 R-008399151-000C 1312 272 UGUCUGCUCUAGUAAUAAG CUUAUUACUAGAGCAGACAUU 2323 R-008396127-000U 1556 273 AAUAAUUAUAAGAACAAGA UCUUGUUCUUAUAAUUAUUUU 2325 R-008396127-000U 1556 273 AAUAAUUAUAAGAACAAGA B AAUAAUUAUAAGAACAAGATT B 2324 R-008395707-000Y 2438 274 UAUGGCCAGGAUGCCUUGG B UAUGGCCAGGAUGCCUUGGTT B 2326 R-008395707-000Y 2438 274 UAUGGCCAGGAUGCCUUGG CCAAGGCAUCCUGGCCAUAUU 2327 R-008395710-000E 1826 275 UGUCCCGCAAAUCAUGCAC GUGCAUGAUUUGCGGGACAUU 2329 R-008395710-000E 1826 275 UGUCCCGCAAAUCAUGCAC B UGUCCCGCAAAUCAUGCACTT B 2328 R-008395713-000F 1397 276 CUUGUUCAGAACUGUCUUU B CUUGUUCAGAACUGUCUUUTT B 2330 R-008395713-000F 1397 276 CUUGUUCAGAACUGUCUUU AAAGACAGUUCUGAACAAGUU 2331 R-008395716-000G 3181 277 GCUGUGAUACGAUGCUUCA UGAAGCAUCGUAUCACAGCUU 2333 R-008395716-000G 3181 277 GCUGUGAUACGAUGCUUCA B GCUGUGAUACGAUGCUUCATT B 2332 R-008395719-000H 1912 278 GCGCCGUACGUCCAUGGGU B GCGCCGUACGUCCAUGGGUTT B 2334 R-008395719-000H 1912 278 GCGCCGUACGUCCAUGGGU ACCCAUGGACGUACGGCGCUU 2335 R-008395722-000P 846 279 AGAUGGUGUCUGCUAUUGU B AGAUGGUGUCUGCUAUUGUTT B 2336 R-008395722-000P 846 279 AGAUGGUGUCUGCUAUUGU ACAAUAGCAGACACCAUCUUU 2337 R-008395725-000R 1404 280 AGAACUGUCUUUGGACUCU B AGAACUGUCUUUGGACUCUTT B 2338 R-008395725-000R 1404 280 AGAACUGUCUUUGGACUCU AGAGUCCAAAGACAGUUCUUU 2339 R-008395728-000S 586 281 CAUGCAGAUCCCAUCUACA UGUAGAUGGGAUCUGCAUGUU 2341 R-008395728-000S 586 281 CAUGCAGAUCCCAUCUACA B CAUGCAGAUCCCAUCUACATT B 2340 R-008395731-000Y 1469 282 CUCCUUGGGACUCUUGUUC GAACAAGAGUCCCAAGGAGUU 2343 R-008395731-000Y 1469 282 CUCCUUGGGACUCUUGUUC B CUCCUUGGGACUCUUGUUCTT B 2342 R-008395734-000Z 380 283 GGUGCCACUACCACAGCUC B GGUGCCACUACCACAGCUCTT B 2344 R-008395734-000Z 380 283 GGUGCCACUACCACAGCUC GAGCUGUGGUAGUGGCACCUU 2345 R-008395737-000A 1345 284 AGCUGGUGGAAUGCAAGCU B AGCUGGUGGAAUGCAAGCUTT B 2346 R-008395737-000A 1345 284 AGCUGGUGGAAUGCAAGCU AGCUUGCAUUCCACCAGCUUU 2347 R-008395740-000G 1863 285 CCAUUCCACGACUAGUUCA B CCAUUCCACGACUAGUUCATT B 2348 R-008395740-000G 1863 285 CCAUUCCACGACUAGUUCA UGAACUAGUCGUGGAAUGGUU 2349 R-008395743-000H 635 286 CAGCGUUUGGCUGAACCAU AUGGUUCAGCCAAACGCUGUU 2351 R-008395743-000H 635 286 CAGCGUUUGGCUGAACCAU B CAGCGUUUGGCUGAACCAUTT B 2350 R-008395746-000J 959 287 AUCUUUAAGUCUGGAGGCA UGCCUCCAGACUUAAAGAUUU 2353 R-008395746-000J 959 287 AUCUUUAAGUCUGGAGGCA B AUCUUUAAGUCUGGAGGCATT B 2352 R-008395749-000K 2440 288 UGGCCAGGAUGCCUUGGGU B UGGCCAGGAUGCCUUGGGUTT B 2354 R-008395749-000K 2440 288 UGGCCAGGAUGCCUUGGGU ACCCAAGGCAUCCUGGCCAUU 2355 R-008395752-000S 877 289 GAAUACAAAUGAUGUAGAA UUCUACAUCAUUUGUAUUCUU 2357 R-008395752-000S 877 289 GAAUACAAAUGAUGUAGAA B GAAUACAAAUGAUGUAGAATT B 2356 R-008395755-000T 2556 290 UGGAUGGGCUGCCUCCAGG CCUGGAGGCAGCCCAUCCAUU 2359 R-008395755-000T 2556 290 UGGAUGGGCUGCCUCCAGG B UGGAUGGGCUGCCUCCAGGTT B 2358 R-008395758-000U 1916 291 CGUACGUCCAUGGGUGGGA B CGUACGUCCAUGGGUGGGATT B 2360 R-008395758-000U 1916 291 CGUACGUCCAUGGGUGGGA UCCCACCCAUGGACGUACGUU 2361 R-008395761-000A 850 292 GGUGUCUGCUAUUGUACGU B GGUGUCUGCUAUUGUACGUTT B 2362 R-008395761-000A 850 292 GGUGUCUGCUAUUGUACGU ACGUACAAUAGCAGACACCUU 2363 R-008395764-000B 1303 293 GGUGCUAUCUGUCUGCUCU B GGUGCUAUCUGUCUGCUCUTT B 2364 R-008395764-000B 1303 293 GGUGCUAUCUGUCUGCUCU AGAGCAGACAGAUAGCACCUU 2365 R-008395767-000C 1726 294 CCUUCACUAUGGACUACCA UGGUAGUCCAUAGUGAAGGUU 2367 R-008395767-000C 1726 294 CCUUCACUAUGGACUACCA B CCUUCACUAUGGACUACCATT B 2366 R-008395770-000J 1477 295 GACUCUUGUUCAGCUUCUG CAGAAGCUGAACAAGAGUCUU 2369 R-008395770-000J 1477 295 GACUCUUGUUCAGCUUCUG B GACUCUUGUUCAGCUUCUGTT B 2368 R-008395773-000K 598 296 AUCUACACAGUUUGAUGCU B AUCUACACAGUUUGAUGCUTT B 2370 R-008395773-000K 598 296 AUCUACACAGUUUGAUGCU AGCAUCAAACUGUGUAGAUUU 2371 R-008395776-000L 2062 297 GUUUGUGCAGCUGCUUUAU B GUUUGUGCAGCUGCUUUAUTT B 2372 R-008395776-000L 2062 297 GUUUGUGCAGCUGCUUUAU AUAAAGCAGCUGCACAAACUU 2373 R-008395779-000M 2278 298 CAAGAAACGGCUUUCAGUU B CAAGAAACGGCUUUCAGUUTT B 2374 R-008395779-000M 2278 298 CAAGAAACGGCUUUCAGUU AACUGAAAGCCGUUUCUUGUU 2375 R-008395782-000U 1877 299 GUUCAGUUGCUUGUUCGUG CACGAACAAGCAACUGAACUU 2377 R-008395782-000U 1877 299 GUUCAGUUGCUUGUUCGUG B GUUCAGUUGCUUGUUCGUGTT B 2376 R-008395785-000V 1499 300 UCAGAUGAUAUAAAUGUGG B UCAGAUGAUAUAAAUGUGGTT B 2378 R-008395785-000V 1499 300 UCAGAUGAUAUAAAUGUGG CCACAUUUAUAUCAUCUGAUU 2379 R-008395788-000W 1136 301 AAUGUUAAAUUCUUGGCUA B AAUGUUAAAUUCUUGGCUATT B 2380 R-008395788-000W 1136 301 AAUGUUAAAUUCUUGGCUA UAGCCAAGAAUUUAACAUUUU 2381 R-008395791-000C 1494 302 UGGGUUCAGAUGAUAUAAA UUUAUAUCAUCUGAACCCAUU 2383 R-008395791-000C 1494 302 UGGGUUCAGAUGAUAUAAA B UGGGUUCAGAUGAUAUAAATT B 2382 R-008395794-000D 1972 303 AAUAGUUGAAGGUUGUACC B AAUAGUUGAAGGUUGUACCTT B 2384 R-008395794-000D 1972 303 AAUAGUUGAAGGUUGUACC GGUACAACCUUCAACUAUUUU 2385 R-008395797-000E 668 304 CAUGCAGUUGUAAACUUGA UCAAGUUUACAACUGCAUGUU 2387 R-008395797-000E 668 304 CAUGCAGUUGUAAACUUGA B CAUGCAGUUGUAAACUUGATT B 2386 R-008395800-000X 2945 305 AAUCUGAAUAAAGUGUAAC GUUACACUUUAUUCAGAUUUU 2389 R-008395800-000X 2945 305 AAUCUGAAUAAAGUGUAAC B AAUCUGAAUAAAGUGUAACTT B 2388 R-008395803-000Y 2492 306 CACCACCCUGGUGCUGACU B CACCACCCUGGUGCUGACUTT B 2390 R-008395803-000Y 2492 306 CACCACCCUGGUGCUGACU AGUCAGCACCAGGGUGGUGUU 2391 R-008395806-000Z 293 307 GAGUUGGACAUGGCCAUGG B GAGUUGGACAUGGCCAUGGTT B 2392 R-008395806-000Z 293 307 GAGUUGGACAUGGCCAUGG CCAUGGCCAUGUCCAACUCUU 2393 R-008395809-000A 1905 308 AUACCCAGCGCCGUACGUC B AUACCCAGCGCCGUACGUCTT B 2394 R-008395809-000A 1905 308 AUACCCAGCGCCGUACGUC GACGUACGGCGCUGGGUAUUU 2395 R-008395812-000G 944 309 GAGGGCUUACUGGCCAUCU AGAUGGCCAGUAAGCCCUCUU 2397 R-008395812-000G 944 309 GAGGGCUUACUGGCCAUCU B GAGGGCUUACUGGCCAUCUTT B 2396 R-008395815-000H 581 310 GAGGGCAUGCAGAUCCCAU B GAGGGCAUGCAGAUCCCAUTT B 2398 R-008395815-000H 581 310 GAGGGCAUGCAGAUCCCAU AUGGGAUCUGCAUGCCCUCUU 2399 R-008395818-000J 1454 311 GAAGGGAUGGAAGGUCUCC B GAAGGGAUGGAAGGUCUCCTT B 2400 R-008395818-000J 1454 311 GAAGGGAUGGAAGGUCUCC GGAGACCUUCCAUCCCUUCUU 2401 R-008395821-000R 2254 312 GUCUGAGGACAAGCCACAA B GUCUGAGGACAAGCCACAATT B 2402 R-008395821-000R 2254 312 GUCUGAGGACAAGCCACAA UUGUGGCUUGUCCUCAGACUU 2403 R-008395824-000S 1837 313 UCAUGCACCUUUGCGUGAG CUCACGCAAAGGUGCAUGAUU 2405 R-008395824-000S 1837 313 UCAUGCACCUUUGCGUGAG B UCAUGCACCUUUGCGUGAGTT B 2404 R-008395827-000T 1425 314 GGAAUCUUUCAGAUGCUGC B GGAAUCUUUCAGAUGCUGCTT B 2406 R-008395827-000T 1425 314 GGAAUCUUUCAGAUGCUGC GCAGCAUCUGAAAGAUUCCUU 2407 R-008395830-000Z 1372 315 UCACCUGACAGAUCCAAGU ACUUGGAUCUGUCAGGUGAUU 2409 R-008395830-000Z 1372 315 UCACCUGACAGAUCCAAGU B UCACCUGACAGAUCCAAGUTT B 2408 R-008395833-000A 1298 316 CUGAAGGUGCUAUCUGUCU B CUGAAGGUGCUAUCUGUCUTT B 2410 R-008395833-000A 1298 316 CUGAAGGUGCUAUCUGUCU AGACAGAUAGCACCUUCAGUU 2411 R-008395836-000B 1674 317 GUCAUCUGACCAGCCGACA B GUCAUCUGACCAGCCGACATT B 2412 R-008395836-000B 1674 317 GUCAUCUGACCAGCCGACA UGUCGGCUGGUCAGAUGACUU 2413 R-008395839-000C 1864 318 CAUUCCACGACUAGUUCAG CUGAACUAGUCGUGGAAUGUU 2415 R-008395839-000C 1864 318 CAUUCCACGACUAGUUCAG B CAUUCCACGACUAGUUCAGTT B 2414 R-008395842-000J 2404 319 UGAUCCUAGCUAUCGUUCU AGAACGAUAGCUAGGAUCAUU 2417 R-008395842-000J 2404 319 UGAUCCUAGCUAUCGUUCU B UGAUCCUAGCUAUCGUUCUTT B 2416 R-008395845-000K 1992 320 GAGCCCUUCACAUCCUAGC GCUAGGAUGUGAAGGGCUCUU 2419 R-008395845-000K 1992 320 GAGCCCUUCACAUCCUAGC B GAGCCCUUCACAUCCUAGCTT B 2418 R-008395848-000L 2124 73 GUGAACUUGCUCAGGACAA UUGUCCUGAGCAAGUUCACUU 2421 R-008395848-000L 2124 73 GUGAACUUGCUCAGGACAA B GUGAACUUGCUCAGGACAATT B 2420 R-008395851-000T 578 321 GAUGAGGGCAUGCAGAUCC GGAUCUGCAUGCCCUCAUCUU 2423 R-008395851-000T 578 321 GAUGAGGGCAUGCAGAUCC B GAUGAGGGCAUGCAGAUCCTT B 2422 R-008395854-000U 3091 322 AUGGGUAGGGUAAAUCAGU B AUGGGUAGGGUAAAUCAGUTT B 2424 R-008395854-000U 3091 322 AUGGGUAGGGUAAAUCAGU ACUGAUUUACCCUACCCAUUU 2425 R-008395857-000V 720 323 GUGCAAUCCCUGAACUGAC B GUGCAAUCCCUGAACUGACTT B 2426 R-008395857-000V 720 323 GUGCAAUCCCUGAACUGAC GUCAGUUCAGGGAUUGCACUU 2427 R-008395860-000B 2054 324 AUUCCAUUGUUUGUGCAGC B AUUCCAUUGUUUGUGCAGCTT B 2428 R-008395860-000B 2054 324 AUUCCAUUGUUUGUGCAGC GCUGCACAAACAAUGGAAUUU 2429 R-008395863-000C 1237 42 UUUAGUAAAUAUAAUGAGG CCUCAUUAUAUUUACUAAAUU 2431 R-008395863-000C 1237 42 UUUAGUAAAUAUAAUGAGG B UUUAGUAAAUAUAAUGAGGTT B 2430 R-008395866-000D 374 325 CAUUCUGGUGCCACUACCA UGGUAGUGGCACCAGAAUGUU 2433 R-008395866-000D 374 325 CAUUCUGGUGCCACUACCA B CAUUCUGGUGCCACUACCATT B 2432 R-008395869-000E 868 326 UACCAUGCAGAAUACAAAU AUUUGUAUUCUGCAUGGUAUU 2435 R-008395869-000E 868 326 UACCAUGCAGAAUACAAAU B UACCAUGCAGAAUACAAAUTT B 2434 R-008395872-000L 626 23 ACUAAUGUCCAGCGUUUGG CCAAACGCUGGACAUUAGUUU 2437 R-008395872-000L 626 23 ACUAAUGUCCAGCGUUUGG B ACUAAUGUCCAGCGUUUGGTT B 2436 R-008395875-000M 1716 327 AUGCAGUUCGCCUUCACUA B AUGCAGUUCGCCUUCACUATT B 2438 R-008395875-000M 1716 327 AUGCAGUUCGCCUUCACUA UAGUGAAGGCGAACUGCAUUU 2439 R-008395878-000N 950 328 UUACUGGCCAUCUUUAAGU B UUACUGGCCAUCUUUAAGUTT B 2440 R-008395878-000N 950 328 UUACUGGCCAUCUUUAAGU ACUUAAAGAUGGCCAGUAAUU 2441 R-008395881-000V 1489 329 GCUUCUGGGUUCAGAUGAU B GCUUCUGGGUUCAGAUGAUTT B 2442 R-008395881-000V 1489 329 GCUUCUGGGUUCAGAUGAU AUCAUCUGAACCCAGAAGCUU 2443 R-008395884-000W 1451 330 CAGGAAGGGAUGGAAGGUC B CAGGAAGGGAUGGAAGGUCTT B 2444 R-008395884-000W 1451 330 CAGGAAGGGAUGGAAGGUC GACCUUCCAUCCCUUCCUGUU 2445 R-008395887-000X 438 159 UGGAUACCUCCCAAGUCCU AGGACUUGGGAGGUAUCCAUU 2447 R-008395887-000X 438 159 UGGAUACCUCCCAAGUCCU B UGGAUACCUCCCAAGUCCUTT B 2446 R-008395890-000D 1181 331 GCUUAUGGCAACCAAGAAA UUUCUUGGUUGCCAUAAGCUU 2449 R-008395890-000D 1181 331 GCUUAUGGCAACCAAGAAA B GCUUAUGGCAACCAAGAAATT B 2448 R-008395893-000E 1633 332 UGACAGGGAAGACAUCACU AGUGAUGUCUUCCCUGUCAUU 2451 R-008395893-000E 1633 332 UGACAGGGAAGACAUCACU B UGACAGGGAAGACAUCACUTT B 2450 R-008395896-000F 2394 333 AUCGCCAGGAUGAUCCUAG CUAGGAUCAUCCUGGCGAUUU 2453 R-008395896-000F 2394 333 AUCGCCAGGAUGAUCCUAG B AUCGCCAGGAUGAUCCUAGTT B 2452 R-008395899-000G 1322 334 AGUAAUAAGCCGGCUAUUG B AGUAAUAAGCCGGCUAUUGTT B 2454 R-008395899-000G 1322 334 AGUAAUAAGCCGGCUAUUG CAAUAGCCGGCUUAUUACUUU 2455 R-008395902-000Z 884 335 AAUGAUGUAGAAACAGCUC GAGCUGUUUCUACAUCAUUUU 2457 R-008395902-000Z 884 335 AAUGAUGUAGAAACAGCUC B AAUGAUGUAGAAACAGCUCTT B 2456 R-008395905-000A 2255 336 UCUGAGGACAAGCCACAAG B UCUGAGGACAAGCCACAAGTT B 2458 R-008395905-000A 2255 336 UCUGAGGACAAGCCACAAG CUUGUGGCUUGUCCUCAGAUU 2459 R-008395908-000B 1466 337 GGUCUCCUUGGGACUCUUG CAAGAGUCCCAAGGAGACCUU 2461 R-008395908-000B 1466 337 GGUCUCCUUGGGACUCUUG B GGUCUCCUUGGGACUCUUGTT B 2460 R-008395911-000H 1399 338 UGUUCAGAACUGUCUUUGG CCAAAGACAGUUCUGAACAUU 2463 R-008395911-000H 1399 338 UGUUCAGAACUGUCUUUGG B UGUUCAGAACUGUCUUUGGTT B 2462 R-008395914-000J 378 339 CUGGUGCCACUACCACAGC B CUGGUGCCACUACCACAGCTT B 2464 R-008395914-000J 378 339 CUGGUGCCACUACCACAGC GCUGUGGUAGUGGCACCAGUU 2465 R-008395917-000K 1921 340 GUCCAUGGGUGGGACACAG CUGUGUCCCACCCAUGGACUU 2467 R-008395917-000K 1921 340 GUCCAUGGGUGGGACACAG B GUCCAUGGGUGGGACACAGTT B 2466 R-008395920-000S 1085 341 GUGCGUUUAGCUGGUGGGC B GUGCGUUUAGCUGGUGGGCTT B 2468 R-008395920-000S 1085 341 GUGCGUUUAGCUGGUGGGC GCCCACCAGCUAAACGCACUU 2469 R-008395923-000T 865 342 ACGUACCAUGCAGAAUACA B ACGUACCAUGCAGAAUACATT B 2470 R-008395923-000T 865 342 ACGUACCAUGCAGAAUACA UGUAUUCUGCAUGGUACGUUU 2471 R-008395926-000U 2015 343 GAUGUUCACAACCGAAUUG B GAUGUUCACAACCGAAUUGTT B 2472 R-008395926-000U 2015 343 GAUGUUCACAACCGAAUUG CAAUUCGGUUGUGAACAUCUU 2473 R-008395929-000V 1195 344 AGAAAGCAAGCUCAUCAUA B AGAAAGCAAGCUCAUCAUATT B 2474 R-008395929-000V 1195 344 AGAAAGCAAGCUCAUCAUA UAUGAUGAGCUUGCUUUCUUU 2475 R-008395932-000B 1484 345 GUUCAGCUUCUGGGUUCAG CUGAACCCAGAAGCUGAACUU 2477 R-008395932-000B 1484 345 GUUCAGCUUCUGGGUUCAG B GUUCAGCUUCUGGGUUCAGTT B 2476 R-008395935-000C 1855 346 GCAGGGUGCCAUUCCACGA B GCAGGGUGCCAUUCCACGATT B 2478 R-008395935-000C 1855 346 GCAGGGUGCCAUUCCACGA UCGUGGAAUGGCACCCUGCUU 2479 R-008395938-000D 1341 347 UAGAAGCUGGUGGAAUGCA B UAGAAGCUGGUGGAAUGCATT B 2480 R-008395938-000D 1341 347 UAGAAGCUGGUGGAAUGCA UGCAUUCCACCAGCUUCUAUU 2481 R-008395950-000U 1963 348 CAUGGAAGAAAUAGUUGAA UUCAACUAUUUCUUCCAUGUU 2483 R-008395950-000U 1963 348 CAUGGAAGAAAUAGUUGAA B CAUGGAAGAAAUAGUUGAATT B 2482 R-008395953-000V 2362 349 UGAUAUUGGUGCCCAGGGA B UGAUAUUGGUGCCCAGGGATT B 2484 R-008395953-000V 2362 349 UGAUAUUGGUGCCCAGGGA UCCCUGGGCACCAAUAUCAUU 2485 R-008395956-000W 584 350 GGCAUGCAGAUCCCAUCUA B GGCAUGCAGAUCCCAUCUATT B 2486 R-008395956-000W 584 350 GGCAUGCAGAUCCCAUCUA UAGAUGGGAUCUGCAUGCCUU 2487 R-008395959-000X 1613 351 CGUACUGUCCUUCGGGCUG B CGUACUGUCCUUCGGGCUGTT B 2488 R-008395959-000X 1613 351 CGUACUGUCCUUCGGGCUG CAGCCCGAAGGACAGUACGUU 2489 R-008395962-000D 1155 352 UUACGACAGACUGCCUUCA UGAAGGCAGUCUGUCGUAAUU 2491 R-008395962-000D 1155 352 UUACGACAGACUGCCUUCA B UUACGACAGACUGCCUUCATT B 2490 R-008395965-000E 334 353 UAGUCACUGGCAGCAACAG B UAGUCACUGGCAGCAACAGTT B 2492 R-008395965-000E 334 353 UAGUCACUGGCAGCAACAG CUGUUGCUGCCAGUGACUAUU 2493 R-008395968-000F 1031 354 GCCAUUACAACUCUCCACA B GCCAUUACAACUCUCCACATT B 2494 R-008395968-000F 1031 354 GCCAUUACAACUCUCCACA UGUGGAGAGUUGUAAUGGCUU 2495 R-008395971-000M 1725 355 GCCUUCACUAUGGACUACC B GCCUUCACUAUGGACUACCTT B 2496 R-008395971-000M 1725 355 GCCUUCACUAUGGACUACC GGUAGUCCAUAGUGAAGGCUU 2497 R-008395974-000N 2018 356 GUUCACAACCGAAUUGUUA B GUUCACAACCGAAUUGUUATT B 2498 R-008395974-000N 2018 356 GUUCACAACCGAAUUGUUA UAACAAUUCGGUUGUGAACUU 2499 R-008395977-000P 914 357 GGGACCUUGCAUAACCUUU AAAGGUUAUGCAAGGUCCCUU 2501 R-008395977-000P 914 357 GGGACCUUGCAUAACCUUU B GGGACCUUGCAUAACCUUUTT B 2500 R-008395980-000W 2264 358 AAGCCACAAGAUUACAAGA B AAGCCACAAGAUUACAAGATT B 2502 R-008395980-000W 2264 358 AAGCCACAAGAUUACAAGA UCUUGUAAUCUUGUGGCUUUU 2503 R-008395983-000X 343 359 GCAGCAACAGUCUUACCUG CAGGUAAGACUGUUGCUGCUU 2505 R-008395983-000X 343 359 GCAGCAACAGUCUUACCUG B GCAGCAACAGUCUUACCUGTT B 2504 R-008395986-000Y 1056 360 UAUUACAUCAAGAAGGAGC B UAUUACAUCAAGAAGGAGCTT B 2506 R-008395986-000Y 1056 360 UAUUACAUCAAGAAGGAGC GCUCCUUCUUGAUGUAAUAUU 2507 R-008395992-000F 772 361 UAAUAAGGCUGCAGUUAUG B UAAUAAGGCUGCAGUUAUGTT B 2508 R-008395992-000F 772 361 UAAUAAGGCUGCAGUUAUG CAUAACUGCAGCCUUAUUAUU 2509 R-008395995-000G 1390 91 UCAACGUCUUGUUCAGAAC GUUCUGAACAAGACGUUGAUU 2511 R-008395995-000G 1390 91 UCAACGUCUUGUUCAGAAC B UCAACGUCUUGUUCAGAACTT B 2510 R-008395998-000H 1959 183 UCCGCAUGGAAGAAAUAGU ACUAUUUCUUCCAUGCGGAUU 2513 R-008395998-000H 1959 183 UCCGCAUGGAAGAAAUAGU B UCCGCAUGGAAGAAAUAGUTT B 2512 R-008396004-000Y 763 362 GGUGGUGGUUAAUAAGGCU B GGUGGUGGUUAAUAAGGCUTT B 2514 R-008396004-000Y 763 362 GGUGGUGGUUAAUAAGGCU AGCCUUAUUAACCACCACCUU 2515 R-008396010-000F 628 363 UAAUGUCCAGCGUUUGGCU B UAAUGUCCAGCGUUUGGCUTT B 2516 R-008396010-000F 628 363 UAAUGUCCAGCGUUUGGCU AGCCAAACGCUGGACAUUAUU 2517 R-008396013-000G 399 364 CUUCUCUGAGUGGUAAAGG B CUUCUCUGAGUGGUAAAGGTT B 2518 R-008396013-000G 399 364 CUUCUCUGAGUGGUAAAGG CCUUUACCACUCAGAGAAGUU 2519 R-008396016-000H 1682 365 ACCAGCCGACACCAAGAAG CUUCUUGGUGUCGGCUGGUUU 2521 R-008396016-000H 1682 365 ACCAGCCGACACCAAGAAG B ACCAGCCGACACCAAGAAGTT B 2520 R-008396019-000J 441 366 AUACCUCCCAAGUCCUGUA B AUACCUCCCAAGUCCUGUATT B 2522 R-008396019-000J 441 366 AUACCUCCCAAGUCCUGUA UACAGGACUUGGGAGGUAUUU 2523 R-008396022-000R 1729 367 UCACUAUGGACUACCAGUU B UCACUAUGGACUACCAGUUTT B 2524 R-008396022-000R 1729 367 UCACUAUGGACUACCAGUU AACUGGUAGUCCAUAGUGAUU 2525 R-008396025-000S 1902 368 AGGAUACCCAGCGCCGUAC GUACGGCGCUGGGUAUCCUUU 2527 R-008396025-000S 1902 368 AGGAUACCCAGCGCCGUAC B AGGAUACCCAGCGCCGUACTT B 2526 R-008396028-000T 1637 369 AGGGAAGACAUCACUGAGC B AGGGAAGACAUCACUGAGCTT B 2528 R-008396028-000T 1637 369 AGGGAAGACAUCACUGAGC GCUCAGUGAUGUCUUCCCUUU 2529 R-008396031-000Z 2391 370 GAUAUCGCCAGGAUGAUCC B GAUAUCGCCAGGAUGAUCCTT B 2530 R-008396031-000Z 2391 370 GAUAUCGCCAGGAUGAUCC GGAUCAUCCUGGCGAUAUCUU 2531 R-008396034-000A 501 371 AAGUAGCUGAUAUUGAUGG B AAGUAGCUGAUAUUGAUGGTT B 2532 R-008396034-000A 501 371 AAGUAGCUGAUAUUGAUGG CCAUCAAUAUCAGCUACUUUU 2533 R-008396037-000B 1358 372 CAAGCUUUAGGACUUCACC B CAAGCUUUAGGACUUCACCTT B 2534 R-008396037-000B 1358 372 CAAGCUUUAGGACUUCACC GGUGAAGUCCUAAAGCUUGUU 2535 R-008396040-000H 1821 373 CCCUUUGUCCCGCAAAUCA B CCCUUUGUCCCGCAAAUCATT B 2536 R-008396040-000H 1821 373 CCCUUUGUCCCGCAAAUCA UGAUUUGCGGGACAAAGGGUU 2537 R-008396043-000J 575 374 UUAGAUGAGGGCAUGCAGA B UUAGAUGAGGGCAUGCAGATT B 2538 R-008396043-000J 575 374 UUAGAUGAGGGCAUGCAGA UCUGCAUGCCCUCAUCUAAUU 2539 R-008396046-000K 528 375 CAAUGACUCGAGCUCAGAG B CAAUGACUCGAGCUCAGAGTT B 2540 R-008396046-000K 528 375 CAAUGACUCGAGCUCAGAG CUCUGAGCUCGAGUCAUUGUU 2541 R-008396049-000L 2433 376 GUGGAUAUGGCCAGGAUGC B GUGGAUAUGGCCAGGAUGCTT B 2542 R-008396049-000L 2433 376 GUGGAUAUGGCCAGGAUGC GCAUCCUGGCCAUAUCCACUU 2543 R-008396052-000T 1497 377 GUUCAGAUGAUAUAAAUGU ACAUUUAUAUCAUCUGAACUU 2545 R-008396052-000T 1497 377 GUUCAGAUGAUAUAAAUGU B GUUCAGAUGAUAUAAAUGUTT B 2544 R-008396055-000U 2134 378 UCAGGACAAGGAAGCUGCA B UCAGGACAAGGAAGCUGCATT B 2546 R-008396055-000U 2134 378 UCAGGACAAGGAAGCUGCA UGCAGCUUCCUUGUCCUGAUU 2547 R-008396058-000V 2160 379 UUGAAGCUGAGGGAGCCAC GUGGCUCCCUCAGCUUCAAUU 2549 R-008396058-000V 2160 379 UUGAAGCUGAGGGAGCCAC B UUGAAGCUGAGGGAGCCACTT B 2548 R-008396061-000B 291 380 UGGAGUUGGACAUGGCCAU AUGGCCAUGUCCAACUCCAUU 2551 R-008396061-000B 291 380 UGGAGUUGGACAUGGCCAU B UGGAGUUGGACAUGGCCAUTT B 2550 R-008396064-000C 657 381 AGAUGCUGAAACAUGCAGU B AGAUGCUGAAACAUGCAGUTT B 2552 R-008396064-000C 657 381 AGAUGCUGAAACAUGCAGU ACUGCAUGUUUCAGCAUCUUU 2553 R-008396067-000D 1575 382 UGAUGGUCUGCCAAGUGGG B UGAUGGUCUGCCAAGUGGGTT B 2554 R-008396067-000D 1575 382 UGAUGGUCUGCCAAGUGGG CCCACUUGGCAGACCAUCAUU 2555 R-008396070-000K 667 383 ACAUGCAGUUGUAAACUUG CAAGUUUACAACUGCAUGUUU 2557 R-008396070-000K 667 383 ACAUGCAGUUGUAAACUUG B ACAUGCAGUUGUAAACUUGTT B 2556 R-008396076-000M 2190 384 CAGAGUUACUUCACUCUAG B CAGAGUUACUUCACUCUAGTT B 2558 R-008396076-000M 2190 384 CAGAGUUACUUCACUCUAG CUAGAGUGAAGUAACUCUGUU 2559 R-008396079-000N 532 385 GACUCGAGCUCAGAGGGUA UACCCUCUGAGCUCGAGUCUU 2561 R-008396079-000N 532 385 GACUCGAGCUCAGAGGGUA B GACUCGAGCUCAGAGGGUATT B 2560 R-008396082-000V 953 386 CUGGCCAUCUUUAAGUCUG CAGACUUAAAGAUGGCCAGUU 2563 R-008396082-000V 953 386 CUGGCCAUCUUUAAGUCUG B CUGGCCAUCUUUAAGUCUGTT B 2562 R-008396085-000W 3188 387 UACGAUGCUUCAAGAGAAA UUUCUCUUGAAGCAUCGUAUU 2565 R-008396085-000W 3188 387 UACGAUGCUUCAAGAGAAA B UACGAUGCUUCAAGAGAAATT B 2564 R-008396088-000X 2301 388 UGACCAGCUCUCUCUUCAG B UGACCAGCUCUCUCUUCAGTT B 2566 R-008396088-000X 2301 388 UGACCAGCUCUCUCUUCAG CUGAAGAGAGAGCUGGUCAUU 2567 R-008396091-000D 2310 389 CUCUCUUCAGAACAGAGCC B CUCUCUUCAGAACAGAGCCTT B 2568 R-008396091-000D 2310 389 CUCUCUUCAGAACAGAGCC GGCUCUGUUCUGAAGAGAGUU 2569 R-008396094-000E 2287 390 GCUUUCAGUUGAGCUGACC B GCUUUCAGUUGAGCUGACCTT B 2570 R-008396094-000E 2287 390 GCUUUCAGUUGAGCUGACC GGUCAGCUCAACUGAAAGCUU 2571 R-008396097-000F 1927 391 GGGUGGGACACAGCAGCAA UUGCUGCUGUGUCCCACCCUU 2573 R-008396097-000F 1927 391 GGGUGGGACACAGCAGCAA B GGGUGGGACACAGCAGCAATT B 2572 R-008396100-000Y 712 392 UGCCACACGUGCAAUCCCU AGGGAUUGCACGUGUGGCAUU 2575 R-008396100-000Y 712 392 UGCCACACGUGCAAUCCCU B UGCCACACGUGCAAUCCCUTT B 2574 R-008396103-000Z 2121 393 UCUGUGAACUUGCUCAGGA B UCUGUGAACUUGCUCAGGATT B 2576 R-008396103-000Z 2121 393 UCUGUGAACUUGCUCAGGA UCCUGAGCAAGUUCACAGAUU 2577 R-008396106-000A 2898 394 UGAGUAAUGGUGUAGAACA B UGAGUAAUGGUGUAGAACATT B 2578 R-008396106-000A 2898 394 UGAGUAAUGGUGUAGAACA UGUUCUACACCAUUACUCAUU 2579 R-008396109-000B 1799 395 GUUGGAUUGAUUCGAAAUC B GUUGGAUUGAUUCGAAAUCTT B 2580 R-008396109-000B 1799 395 GUUGGAUUGAUUCGAAAUC GAUUUCGAAUCAAUCCAACUU 2581 R-008396112-000H 1036 396 UACAACUCUCCACAACCUU AAGGUUGUGGAGAGUUGUAUU 2583 R-008396112-000H 1036 396 UACAACUCUCCACAACCUU B UACAACUCUCCACAACCUUTT B 2582 R-008396115-000J 449 397 CAAGUCCUGUAUGAGUGGG CCCACUCAUACAGGACUUGUU 2585 R-008396115-000J 449 397 CAAGUCCUGUAUGAGUGGG B CAAGUCCUGUAUGAGUGGGTT B 2584 R-008396118-000K 1452 398 AGGAAGGGAUGGAAGGUCU B AGGAAGGGAUGGAAGGUCUTT B 2586 R-008396118-000K 1452 398 AGGAAGGGAUGGAAGGUCU AGACCUUCCAUCCCUUCCUUU 2587 R-008396124-000T 1203 399 AGCUCAUCAUACUGGCUAG B AGCUCAUCAUACUGGCUAGTT B 2588 R-008396124-000T 1203 399 AGCUCAUCAUACUGGCUAG CUAGCCAGUAUGAUGAGCUUU 2589 R-008396130-000A 1357 400 GCAAGCUUUAGGACUUCAC GUGAAGUCCUAAAGCUUGCUU 2591 R-008396130-000A 1357 400 GCAAGCUUUAGGACUUCAC B GCAAGCUUUAGGACUUCACTT B 2590 R-008396133-000B 1512 401 AUGUGGUCACCUGUGCAGC GCUGCACAGGUGACCACAUUU 2593 R-008396133-000B 1512 401 AUGUGGUCACCUGUGCAGC B AUGUGGUCACCUGUGCAGCTT B 2592 R-008396136-000C 275 402 ACUCAAGCUGAUUUGAUGG B ACUCAAGCUGAUUUGAUGGTT B 2594 R-008396136-000C 275 402 ACUCAAGCUGAUUUGAUGG CCAUCAAAUCAGCUUGAGUUU 2595 R-008396139-000D 299 403 GACAUGGCCAUGGAACCAG CUGGUUCCAUGGCCAUGUCUU 2597 R-008396139-000D 299 403 GACAUGGCCAUGGAACCAG B GACAUGGCCAUGGAACCAGTT B 2596 R-008396142-000K 1241 404 GUAAAUAUAAUGAGGACCU B GUAAAUAUAAUGAGGACCUTT B 2598 R-008396142-000K 1241 404 GUAAAUAUAAUGAGGACCU AGGUCCUCAUUAUAUUUACUU 2599 R-008396145-000L 1961 405 CGCAUGGAAGAAAUAGUUG CAACUAUUUCUUCCAUGCGUU 2601 R-008396145-000L 1961 405 CGCAUGGAAGAAAUAGUUG B CGCAUGGAAGAAAUAGUUGTT B 2600 R-008396148-000M 1436 406 GAUGCUGCAACUAAACAGG B GAUGCUGCAACUAAACAGGTT B 2602 R-008396148-000M 1436 406 GAUGCUGCAACUAAACAGG CCUGUUUAGUUGCAGCAUCUU 2603 R-008396151-000U 2469 407 UGAUGGAACAUGAGAUGGG B UGAUGGAACAUGAGAUGGGTT B 2604 R-008396151-000U 2469 407 UGAUGGAACAUGAGAUGGG CCCAUCUCAUGUUCCAUCAUU 2605 R-008396154-000V 760 408 CCAGGUGGUGGUUAAUAAG B CCAGGUGGUGGUUAAUAAGTT B 2606 R-008396154-000V 760 408 CCAGGUGGUGGUUAAUAAG CUUAUUAACCACCACCUGGUU 2607 R-008396157-000W 2504 141 GCUGACUAUCCAGUUGAUG CAUCAACUGGAUAGUCAGCUU 2609 R-008396157-000W 2504 141 GCUGACUAUCCAGUUGAUG B GCUGACUAUCCAGUUGAUGTT B 2608 R-008396160-000C 2257 409 UGAGGACAAGCCACAAGAU AUCUUGUGGCUUGUCCUCAUU 2611 R-008396160-000C 2257 409 UGAGGACAAGCCACAAGAU B UGAGGACAAGCCACAAGAUTT B 2610 R-008396163-000D 952 410 ACUGGCCAUCUUUAAGUCU AGACUUAAAGAUGGCCAGUUU 2613 R-008396163-000D 952 410 ACUGGCCAUCUUUAAGUCU B ACUGGCCAUCUUUAAGUCUTT B 2612 R-008396166-000E 2283 411 AACGGCUUUCAGUUGAGCU B AACGGCUUUCAGUUGAGCUTT B 2614 R-008396166-000E 2283 411 AACGGCUUUCAGUUGAGCU AGCUCAACUGAAAGCCGUUUU 2615 R-008396169-000F 1649 62 ACUGAGCCUGCCAUCUGUG B ACUGAGCCUGCCAUCUGUGTT B 2616 R-008396169-000F 1649 62 ACUGAGCCUGCCAUCUGUG CACAGAUGGCAGGCUCAGUUU 2617 R-008396172-000M 2014 8 GGAUGUUCACAACCGAAUU AAUUCGGUUGUGAACAUCCUU 2619 R-008396172-000M 2014 8 GGAUGUUCACAACCGAAUU B GGAUGUUCACAACCGAAUUTT B 2618 R-008396175-000N 1794 412 CUACUGUUGGAUUGAUUCG CGAAUCAAUCCAACAGUAGUU 2621 R-008396175-000N 1794 412 CUACUGUUGGAUUGAUUCG B CUACUGUUGGAUUGAUUCGTT B 2620 R-008396178-000P 1745 413 GUUGUGGUUAAGCUCUUAC B GUUGUGGUUAAGCUCUUACTT B 2622 R-008396178-000P 1745 413 GUUGUGGUUAAGCUCUUAC GUAAGAGCUUAACCACAACUU 2623 R-008396181-000W 1211 414 AUACUGGCUAGUGGUGGAC GUCCACCACUAGCCAGUAUUU 2625 R-008396181-000W 1211 414 AUACUGGCUAGUGGUGGAC B AUACUGGCUAGUGGUGGACTT B 2624 R-008396184-000X 2549 415 GACCUCAUGGAUGGGCUGC B GACCUCAUGGAUGGGCUGCTT B 2626 R-008396184-000X 2549 415 GACCUCAUGGAUGGGCUGC GCAGCCCAUCCAUGAGGUCUU 2627 R-008396187-000Y 2007 416 UAGCUCGGGAUGUUCACAA UUGUGAACAUCCCGAGCUAUU 2629 R-008396187-000Y 2007 416 UAGCUCGGGAUGUUCACAA B UAGCUCGGGAUGUUCACAATT B 2628 R-008396190-000E 2474 417 GAACAUGAGAUGGGUGGCC B GAACAUGAGAUGGGUGGCCTT B 2630 R-008396190-000E 2474 417 GAACAUGAGAUGGGUGGCC GGCCACCCAUCUCAUGUUCUU 2631 R-008396193-000F 1712 418 CAGAAUGCAGUUCGCCUUC GAAGGCGAACUGCAUUCUGUU 2633 R-008396193-000F 1712 418 CAGAAUGCAGUUCGCCUUC B CAGAAUGCAGUUCGCCUUCTT B 2632 R-008396196-000G 1919 419 ACGUCCAUGGGUGGGACAC B ACGUCCAUGGGUGGGACACTT B 2634 R-008396196-000G 1919 419 ACGUCCAUGGGUGGGACAC GUGUCCCACCCAUGGACGUUU 2635 R-008396199-000H 1000 420 UGGUUCACCAGUGGAUUCU AGAAUCCACUGGUGAACCAUU 2637 R-008396199-000H 1000 420 UGGUUCACCAGUGGAUUCU B UGGUUCACCAGUGGAUUCUTT B 2636 R-008396202-000A 2392 421 AUAUCGCCAGGAUGAUCCU AGGAUCAUCCUGGCGAUAUUU 2639 R-008396202-000A 2392 421 AUAUCGCCAGGAUGAUCCU B AUAUCGCCAGGAUGAUCCUTT B 2638 R-008396205-000B 1449 422 AACAGGAAGGGAUGGAAGG B AACAGGAAGGGAUGGAAGGTT B 2640 R-008396205-000B 1449 422 AACAGGAAGGGAUGGAAGG CCUUCCAUCCCUUCCUGUUUU 2641 R-008396208-000C 2294 423 GUUGAGCUGACCAGCUCUC GAGAGCUGGUCAGCUCAACUU 2643 R-008396208-000C 2294 423 GUUGAGCUGACCAGCUCUC B GUUGAGCUGACCAGCUCUCTT B 2642 R-008396211-000J 1135 424 AAAUGUUAAAUUCUUGGCU B AAAUGUUAAAUUCUUGGCUTT B 2644 R-008396211-000J 1135 424 AAAUGUUAAAUUCUUGGCU AGCCAAGAAUUUAACAUUUUU 2645 R-008396214-000K 822 14 GACACGCUAUCAUGCGUUC B GACACGCUAUCAUGCGUUCTT B 2646 R-008396214-000K 822 14 GACACGCUAUCAUGCGUUC GAACGCAUGAUAGCGUGUCUU 2647 R-008396217-000L 1333 425 GGCUAUUGUAGAAGCUGGU ACCAGCUUCUACAAUAGCCUU 2649 R-008396217-000L 1333 425 GGCUAUUGUAGAAGCUGGU B GGCUAUUGUAGAAGCUGGUTT B 2648 R-008396220-000T 1743 426 CAGUUGUGGUUAAGCUCUU AAGAGCUUAACCACAACUGUU 2651 R-008396220-000T 1743 426 CAGUUGUGGUUAAGCUCUU B CAGUUGUGGUUAAGCUCUUTT B 2650 R-008396223-000U 600 427 CUACACAGUUUGAUGCUGC GCAGCAUCAAACUGUGUAGUU 2653 R-008396223-000U 600 427 CUACACAGUUUGAUGCUGC B CUACACAGUUUGAUGCUGCTT B 2652 R-008396226-000V 970 428 UGGAGGCAUUCCUGCCCUG CAGGGCAGGAAUGCCUCCAUU 2655 R-008396226-000V 970 428 UGGAGGCAUUCCUGCCCUG B UGGAGGCAUUCCUGCCCUGTT B 2654 R-008396229-000W 3137 429 GGACAGUUUACCAGUUGCC B GGACAGUUUACCAGUUGCCTT B 2656 R-008396229-000W 3137 429 GGACAGUUUACCAGUUGCC GGCAACUGGUAAACUGUCCUU 2657 R-008396232-000C 372 430 UCCAUUCUGGUGCCACUAC GUAGUGGCACCAGAAUGGAUU 2659 R-008396232-000C 372 430 UCCAUUCUGGUGCCACUAC B UCCAUUCUGGUGCCACUACTT B 2658 R-008396235-000D 1761 431 UACACCCACCAUCCCACUG B UACACCCACCAUCCCACUGTT B 2660 R-008396235-000D 1761 431 UACACCCACCAUCCCACUG CAGUGGGAUGGUGGGUGUAUU 2661 R-008396238-000E 1650 432 CUGAGCCUGCCAUCUGUGC GCACAGAUGGCAGGCUCAGUU 2663 R-008396238-000E 1650 432 CUGAGCCUGCCAUCUGUGC B CUGAGCCUGCCAUCUGUGCTT B 2662 R-008396241-000L 972 433 GAGGCAUUCCUGCCCUGGU B GAGGCAUUCCUGCCCUGGUTT B 2664 R-008396241-000L 972 433 GAGGCAUUCCUGCCCUGGU ACCAGGGCAGGAAUGCCUCUU 2665 R-008396244-000M 1147 434 CUUGGCUAUUACGACAGAC GUCUGUCGUAAUAGCCAAGUU 2667 R-008396244-000M 1147 434 CUUGGCUAUUACGACAGAC B CUUGGCUAUUACGACAGACTT B 2666 R-008396247-000N 565 435 CCCUGAGACAUUAGAUGAG B CCCUGAGACAUUAGAUGAGTT B 2668 R-008396247-000N 565 435 CCCUGAGACAUUAGAUGAG CUCAUCUAAUGUCUCAGGGUU 2669 R-008396250-000V 525 436 AUGCAAUGACUCGAGCUCA B AUGCAAUGACUCGAGCUCATT B 2670 R-008396250-000V 525 436 AUGCAAUGACUCGAGCUCA UGAGCUCGAGUCAUUGCAUUU 2671 R-008396253-000W 1599 437 UAGAGGCUCUUGUGCGUAC B UAGAGGCUCUUGUGCGUACTT B 2672 R-008396253-000W 1599 437 UAGAGGCUCUUGUGCGUAC GUACGCACAAGAGCCUCUAUU 2673 R-008396256-000X 2199 438 UUCACUCUAGGAAUGAAGG B UUCACUCUAGGAAUGAAGGTT B 2674 R-008396256-000X 2199 438 UUCACUCUAGGAAUGAAGG CCUUCAUUCCUAGAGUGAAUU 2675 R-008396259-000Y 2261 439 GACAAGCCACAAGAUUACA B GACAAGCCACAAGAUUACATT B 2676 R-008396259-000Y 2261 439 GACAAGCCACAAGAUUACA UGUAAUCUUGUGGCUUGUCUU 2677 R-008396262-000E 705 440 CAGAACUUGCCACACGUGC B CAGAACUUGCCACACGUGCTT B 2678 R-008396262-000E 705 440 CAGAACUUGCCACACGUGC GCACGUGUGGCAAGUUCUGUU 2679 R-008396265-000F 916 441 GACCUUGCAUAACCUUUCC B GACCUUGCAUAACCUUUCCTT B 2680 R-008396265-000F 916 441 GACCUUGCAUAACCUUUCC GGAAAGGUUAUGCAAGGUCUU 2681 R-008396268-000G 385 442 CACUACCACAGCUCCUUCU AGAAGGAGCUGUGGUAGUGUU 2683 R-008396268-000G 385 442 CACUACCACAGCUCCUUCU B CACUACCACAGCUCCUUCUTT B 2682 R-008396271-000N 3076 443 CUAUUUGGGAUAUGUAUGG B CUAUUUGGGAUAUGUAUGGTT B 2684 R-008396271-000N 3076 443 CUAUUUGGGAUAUGUAUGG CCAUACAUAUCCCAAAUAGUU 2685 R-008396274-000P 1396 444 UCUUGUUCAGAACUGUCUU B UCUUGUUCAGAACUGUCUUTT B 2686 R-008396274-000P 1396 444 UCUUGUUCAGAACUGUCUU AAGACAGUUCUGAACAAGAUU 2687 R-008396277-000R 2447 445 GAUGCCUUGGGUAUGGACC GGUCCAUACCCAAGGCAUCUU 2689 R-008396277-000R 2447 445 GAUGCCUUGGGUAUGGACC B GAUGCCUUGGGUAUGGACCTT B 2688 R-008396280-000X 1338 446 UUGUAGAAGCUGGUGGAAU B UUGUAGAAGCUGGUGGAAUTT B 2690 R-008396280-000X 1338 446 UUGUAGAAGCUGGUGGAAU AUUCCACCAGCUUCUACAAUU 2691 R-008396283-000Y 2215 447 AGGUGUGGCGACAUAUGCA UGCAUAUGUCGCCACACCUUU 2693 R-008396283-000Y 2215 447 AGGUGUGGCGACAUAUGCA B AGGUGUGGCGACAUAUGCATT B 2692 R-008396286-000Z 722 448 GCAAUCCCUGAACUGACAA B GCAAUCCCUGAACUGACAATT B 2694 R-008396286-000Z 722 448 GCAAUCCCUGAACUGACAA UUGUCAGUUCAGGGAUUGCUU 2695 R-008396289-000A 1316 449 UGCUCUAGUAAUAAGCCGG CCGGCUUAUUACUAGAGCAUU 2697 R-008396289-000A 1316 449 UGCUCUAGUAAUAAGCCGG B UGCUCUAGUAAUAAGCCGGTT B 2696 R-008396292-000G 1687 450 CCGACACCAAGAAGCAGAG B CCGACACCAAGAAGCAGAGTT B 2698 R-008396292-000G 1687 450 CCGACACCAAGAAGCAGAG CUCUGCUUCUUGGUGUCGGUU 2699 R-008396295-000H 697 451 AGAUGAUGCAGAACUUGCC B AGAUGAUGCAGAACUUGCCTT B 2700 R-008396295-000H 697 451 AGAUGAUGCAGAACUUGCC GGCAAGUUCUGCAUCAUCUUU 2701 R-008396298-000J 2517 452 UUGAUGGGCUGCCAGAUCU B UUGAUGGGCUGCCAGAUCUTT B 2702 R-008396298-000J 2517 452 UUGAUGGGCUGCCAGAUCU AGAUCUGGCAGCCCAUCAAUU 2703 R-008396301-000B 1685 453 AGCCGACACCAAGAAGCAG B AGCCGACACCAAGAAGCAGTT B 2704 R-008396301-000B 1685 453 AGCCGACACCAAGAAGCAG CUGCUUCUUGGUGUCGGCUUU 2705 R-008396304-000C 3090 454 UAUGGGUAGGGUAAAUCAG CUGAUUUACCCUACCCAUAUU 2707 R-008396304-000C 3090 454 UAUGGGUAGGGUAAAUCAG B UAUGGGUAGGGUAAAUCAGTT B 2706 R-008396307-000D 1205 455 CUCAUCAUACUGGCUAGUG B CUCAUCAUACUGGCUAGUGTT B 2708 R-008396307-000D 1205 455 CUCAUCAUACUGGCUAGUG CACUAGCCAGUAUGAUGAGUU 2709 R-008396310-000K 1153 456 UAUUACGACAGACUGCCUU B UAUUACGACAGACUGCCUUTT B 2710 R-008396310-000K 1153 456 UAUUACGACAGACUGCCUU AAGGCAGUCUGUCGUAAUAUU 2711 R-008396313-000L 723 457 CAAUCCCUGAACUGACAAA B CAAUCCCUGAACUGACAAATT B 2712 R-008396313-000L 723 457 CAAUCCCUGAACUGACAAA UUUGUCAGUUCAGGGAUUGUU 2713 R-008396316-000M 1468 458 UCUCCUUGGGACUCUUGUU AACAAGAGUCCCAAGGAGAUU 2715 R-008396316-000M 1468 458 UCUCCUUGGGACUCUUGUU B UCUCCUUGGGACUCUUGUUTT B 2714 R-008396319-000N 2480 459 GAGAUGGGUGGCCACCACC B GAGAUGGGUGGCCACCACCTT B 2716 R-008396319-000N 2480 459 GAGAUGGGUGGCCACCACC GGUGGUGGCCACCCAUCUCUU 2717 R-008396322-000V 1856 460 CAGGGUGCCAUUCCACGAC B CAGGGUGCCAUUCCACGACTT B 2718 R-008396322-000V 1856 460 CAGGGUGCCAUUCCACGAC GUCGUGGAAUGGCACCCUGUU 2719 R-008396325-000W 2193 461 AGUUACUUCACUCUAGGAA B AGUUACUUCACUCUAGGAATT B 2720 R-008396325-000W 2193 461 AGUUACUUCACUCUAGGAA UUCCUAGAGUGAAGUAACUUU 2721 R-008396328-000X 2355 462 UUGGACUUGAUAUUGGUGC B UUGGACUUGAUAUUGGUGCTT B 2722 R-008396328-000X 2355 462 UUGGACUUGAUAUUGGUGC GCACCAAUAUCAAGUCCAAUU 2723 R-008396331-000D 1995 463 CCCUUCACAUCCUAGCUCG CGAGCUAGGAUGUGAAGGGUU 2725 R-008396331-000D 1995 463 CCCUUCACAUCCUAGCUCG B CCCUUCACAUCCUAGCUCGTT B 2724 R-008396334-000E 821 464 AGACACGCUAUCAUGCGUU B AGACACGCUAUCAUGCGUUTT B 2726 R-008396334-000E 821 464 AGACACGCUAUCAUGCGUU AACGCAUGAUAGCGUGUCUUU 2727 R-008396337-000F 1715 465 AAUGCAGUUCGCCUUCACU B AAUGCAGUUCGCCUUCACUTT B 2728 R-008396337-000F 1715 465 AAUGCAGUUCGCCUUCACU AGUGAAGGCGAACUGCAUUUU 2729 R-008396340-000M 1182 466 CUUAUGGCAACCAAGAAAG CUUUCUUGGUUGCCAUAAGUU 2731 R-008396340-000M 1182 466 CUUAUGGCAACCAAGAAAG B CUUAUGGCAACCAAGAAAGTT B 2730 R-008396343-000N 445 467 CUCCCAAGUCCUGUAUGAG B CUCCCAAGUCCUGUAUGAGTT B 2732 R-008396343-000N 445 467 CUCCCAAGUCCUGUAUGAG CUCAUACAGGACUUGGGAGUU 2733 R-008396346-000P 1759 468 CUUACACCCACCAUCCCAC GUGGGAUGGUGGGUGUAAGUU 2735 R-008396346-000P 1759 468 CUUACACCCACCAUCCCAC B CUUACACCCACCAUCCCACTT B 2734 R-008396349-000R 1461 469 UGGAAGGUCUCCUUGGGAC B UGGAAGGUCUCCUUGGGACTT B 2736 R-008396349-000R 1461 469 UGGAAGGUCUCCUUGGGAC GUCCCAAGGAGACCUUCCAUU 2737 R-008396352-000X 1993 470 AGCCCUUCACAUCCUAGCU AGCUAGGAUGUGAAGGGCUUU 2739 R-008396352-000X 1993 470 AGCCCUUCACAUCCUAGCU B AGCCCUUCACAUCCUAGCUTT B 2738 R-008396355-000Y 2558 471 GAUGGGCUGCCUCCAGGUG B GAUGGGCUGCCUCCAGGUGTT B 2740 R-008396355-000Y 2558 471 GAUGGGCUGCCUCCAGGUG CACCUGGAGGCAGCCCAUCUU 2741 R-008396358-000Z 1488 472 AGCUUCUGGGUUCAGAUGA B AGCUUCUGGGUUCAGAUGATT B 2742 R-008396358-000Z 1488 472 AGCUUCUGGGUUCAGAUGA UCAUCUGAACCCAGAAGCUUU 2743 R-008396361-000F 1652 473 GAGCCUGCCAUCUGUGCUC B GAGCCUGCCAUCUGUGCUCTT B 2744 R-008396361-000F 1652 473 GAGCCUGCCAUCUGUGCUC GAGCACAGAUGGCAGGCUCUU 2745 R-008396364-000G 963 474 UUAAGUCUGGAGGCAUUCC B UUAAGUCUGGAGGCAUUCCTT B 2746 R-008396364-000G 963 474 UUAAGUCUGGAGGCAUUCC GGAAUGCCUCCAGACUUAAUU 2747 R-008396367-000H 1520 475 ACCUGUGCAGCUGGAAUUC B ACCUGUGCAGCUGGAAUUCTT B 2748 R-008396367-000H 1520 475 ACCUGUGCAGCUGGAAUUC GAAUUCCAGCUGCACAGGUUU 2749 R-008396370-000P 1828 476 UCCCGCAAAUCAUGCACCU AGGUGCAUGAUUUGCGGGAUU 2751 R-008396370-000P 1828 476 UCCCGCAAAUCAUGCACCU B UCCCGCAAAUCAUGCACCUTT B 2750 R-008396373-000R 2214 477 AAGGUGUGGCGACAUAUGC B AAGGUGUGGCGACAUAUGCTT B 2752 R-008396373-000R 2214 477 AAGGUGUGGCGACAUAUGC GCAUAUGUCGCCACACCUUUU 2753 R-008396376-000S 2155 478 AGCUAUUGAAGCUGAGGGA UCCCUCAGCUUCAAUAGCUUU 2755 R-008396376-000S 2155 478 AGCUAUUGAAGCUGAGGGA B AGCUAUUGAAGCUGAGGGATT B 2754 R-008396379-000T 332 479 GUUAGUCACUGGCAGCAAC GUUGCUGCCAGUGACUAACUU 2757 R-008396379-000T 332 479 GUUAGUCACUGGCAGCAAC B GUUAGUCACUGGCAGCAACTT B 2756 R-008396382-000Z 2545 74 CCAGGACCUCAUGGAUGGG CCCAUCCAUGAGGUCCUGGUU 2759 R-008396382-000Z 2545 74 CCAGGACCUCAUGGAUGGG B CCAGGACCUCAUGGAUGGGTT B 2758 R-008396385-000A 1878 480 UUCAGUUGCUUGUUCGUGC B UUCAGUUGCUUGUUCGUGCTT B 2760 R-008396385-000A 1878 480 UUCAGUUGCUUGUUCGUGC GCACGAACAAGCAACUGAAUU 2761 R-008396388-000B 1789 106 AAAGGCUACUGUUGGAUUG CAAUCCAACAGUAGCCUUUUU 2763 R-008396388-000B 1789 106 AAAGGCUACUGUUGGAUUG B AAAGGCUACUGUUGGAUUGTT B 2762 R-008396391-000H 2547 168 AGGACCUCAUGGAUGGGCU B AGGACCUCAUGGAUGGGCUTT B 2764 R-008396391-000H 2547 168 AGGACCUCAUGGAUGGGCU AGCCCAUCCAUGAGGUCCUUU 2765 R-008396394-000J 1573 481 GAUGAUGGUCUGCCAAGUG B GAUGAUGGUCUGCCAAGUGTT B 2766 R-008396394-000J 1573 481 GAUGAUGGUCUGCCAAGUG CACUUGGCAGACCAUCAUCUU 2767 R-008396397-000K 1446 482 CUAAACAGGAAGGGAUGGA B CUAAACAGGAAGGGAUGGATT B 2768 R-008396397-000K 1446 482 CUAAACAGGAAGGGAUGGA UCCAUCCCUUCCUGUUUAGUU 2769 R-008396400-000C 1868 483 CCACGACUAGUUCAGUUGC GCAACUGAACUAGUCGUGGUU 2771 R-008396400-000C 1868 483 CCACGACUAGUUCAGUUGC B CCACGACUAGUUCAGUUGCTT B 2770 R-008396403-000D 1873 484 ACUAGUUCAGUUGCUUGUU AACAAGCAACUGAACUAGUUU 2773 R-008396403-000D 1873 484 ACUAGUUCAGUUGCUUGUU B ACUAGUUCAGUUGCUUGUUTT B 2772 R-008396406-000E 1002 485 GUUCACCAGUGGAUUCUGU B GUUCACCAGUGGAUUCUGUTT B 2774 R-008396406-000E 1002 485 GUUCACCAGUGGAUUCUGU ACAGAAUCCACUGGUGAACUU 2775 R-008396409-000F 408 486 GUGGUAAAGGCAAUCCUGA B GUGGUAAAGGCAAUCCUGATT B 2776 R-008396409-000F 408 486 GUGGUAAAGGCAAUCCUGA UCAGGAUUGCCUUUACCACUU 2777 R-008396412-000M 287 487 UUGAUGGAGUUGGACAUGG CCAUGUCCAACUCCAUCAAUU 2779 R-008396412-000M 287 487 UUGAUGGAGUUGGACAUGG B UUGAUGGAGUUGGACAUGGTT B 2778 R-008396415-000N 1492 119 UCUGGGUUCAGAUGAUAUA UAUAUCAUCUGAACCCAGAUU 2781 R-008396415-000N 1492 119 UCUGGGUUCAGAUGAUAUA B UCUGGGUUCAGAUGAUAUATT B 2780 R-008396418-000P 517 187 UGGACAGUAUGCAAUGACU B UGGACAGUAUGCAAUGACUTT B 2782 R-008396418-000P 517 187 UGGACAGUAUGCAAUGACU AGUCAUUGCAUACUGUCCAUU 2783 R-008396421-000W 447 177 CCCAAGUCCUGUAUGAGUG B CCCAAGUCCUGUAUGAGUGTT B 2784 R-008396421-000W 447 177 CCCAAGUCCUGUAUGAGUG CACUCAUACAGGACUUGGGUU 2785 R-008396424-000X 2128 488 ACUUGCUCAGGACAAGGAA UUCCUUGUCCUGAGCAAGUUU 2787 R-008396424-000X 2128 488 ACUUGCUCAGGACAAGGAA B ACUUGCUCAGGACAAGGAATT B 2786 R-008396427-000Y 2513 489 CCAGUUGAUGGGCUGCCAG B CCAGUUGAUGGGCUGCCAGTT B 2788 R-008396427-000Y 2513 489 CCAGUUGAUGGGCUGCCAG CUGGCAGCCCAUCAACUGGUU 2789 R-008396430-000E 1196 490 GAAAGCAAGCUCAUCAUAC GUAUGAUGAGCUUGCUUUCUU 2791 R-008396430-000E 1196 490 GAAAGCAAGCUCAUCAUAC B GAAAGCAAGCUCAUCAUACTT B 2790 R-008396433-000F 572 491 ACAUUAGAUGAGGGCAUGC B ACAUUAGAUGAGGGCAUGCTT B 2792 R-008396433-000F 572 491 ACAUUAGAUGAGGGCAUGC GCAUGCCCUCAUCUAAUGUUU 2793 R-008396436-000G 622 492 UCCCACUAAUGUCCAGCGU B UCCCACUAAUGUCCAGCGUTT B 2794 R-008396436-000G 622 492 UCCCACUAAUGUCCAGCGU ACGCUGGACAUUAGUGGGAUU 2795 R-008396439-000H 1187 493 GGCAACCAAGAAAGCAAGC GCUUGCUUUCUUGGUUGCCUU 2797 R-008396439-000H 1187 493 GGCAACCAAGAAAGCAAGC B GGCAACCAAGAAAGCAAGCTT B 2796 R-008396442-000P 2098 49 CCAAAGAGUAGCUGCAGGG B CCAAAGAGUAGCUGCAGGGTT B 2798 R-008396442-000P 2098 49 CCAAAGAGUAGCUGCAGGG CCCUGCAGCUACUCUUUGGUU 2799 R-008396445-000R 1971 494 AAAUAGUUGAAGGUUGUAC B AAAUAGUUGAAGGUUGUACTT B 2800 R-008396445-000R 1971 494 AAAUAGUUGAAGGUUGUAC GUACAACCUUCAACUAUUUUU 2801 R-008396448-000S 3083 495 GGAUAUGUAUGGGUAGGGU ACCCUACCCAUACAUAUCCUU 2803 R-008396448-000S 3083 495 GGAUAUGUAUGGGUAGGGU B GGAUAUGUAUGGGUAGGGUTT B 2802 R-008396454-000Z 2944 496 UAAUCUGAAUAAAGUGUAA UUACACUUUAUUCAGAUUAUU 2805 R-008396454-000Z 2944 496 UAAUCUGAAUAAAGUGUAA B UAAUCUGAAUAAAGUGUAATT B 2804 R-008396457-000A 1894 497 UGCACAUCAGGAUACCCAG B UGCACAUCAGGAUACCCAGTT B 2806 R-008396457-000A 1894 497 UGCACAUCAGGAUACCCAG CUGGGUAUCCUGAUGUGCAUU 2807 R-008396460-000G 1323 498 GUAAUAAGCCGGCUAUUGU B GUAAUAAGCCGGCUAUUGUTT B 2808 R-008396460-000G 1323 498 GUAAUAAGCCGGCUAUUGU ACAAUAGCCGGCUUAUUACUU 2809 R-008396469-000K 1202 499 AAGCUCAUCAUACUGGCUA B AAGCUCAUCAUACUGGCUATT B 2810 R-008396469-000K 1202 499 AAGCUCAUCAUACUGGCUA UAGCCAGUAUGAUGAGCUUUU 2811 R-008396472-000S 718 500 ACGUGCAAUCCCUGAACUG CAGUUCAGGGAUUGCACGUUU 2813 R-008396472-000S 718 500 ACGUGCAAUCCCUGAACUG B ACGUGCAAUCCCUGAACUGTT B 2812 R-008396475-000T 2097 46 UCCAAAGAGUAGCUGCAGG CCUGCAGCUACUCUUUGGAUU 2815 R-008396475-000T 2097 46 UCCAAAGAGUAGCUGCAGG B UCCAAAGAGUAGCUGCAGGTT B 2814 R-008396478-000U 1744 501 AGUUGUGGUUAAGCUCUUA B AGUUGUGGUUAAGCUCUUATT B 2816 R-008396478-000U 1744 501 AGUUGUGGUUAAGCUCUUA UAAGAGCUUAACCACAACUUU 2817 R-008396481-000A 756 502 AGGACCAGGUGGUGGUUAA UUAACCACCACCUGGUCCUUU 2819 R-008396481-000A 756 502 AGGACCAGGUGGUGGUUAA B AGGACCAGGUGGUGGUUAATT B 2818 R-008396484-000B 1317 503 GCUCUAGUAAUAAGCCGGC GCCGGCUUAUUACUAGAGCUU 2821 R-008396484-000B 1317 503 GCUCUAGUAAUAAGCCGGC B GCUCUAGUAAUAAGCCGGCTT B 2820 R-008396487-000C 284 504 GAUUUGAUGGAGUUGGACA B GAUUUGAUGGAGUUGGACATT B 2822 R-008396487-000C 284 504 GAUUUGAUGGAGUUGGACA UGUCCAACUCCAUCAAAUCUU 2823 R-008396490-000J 886 505 UGAUGUAGAAACAGCUCGU B UGAUGUAGAAACAGCUCGUTT B 2824 R-008396490-000J 886 505 UGAUGUAGAAACAGCUCGU ACGAGCUGUUUCUACAUCAUU 2825 R-008396493-000K 2430 506 CUGGUGGAUAUGGCCAGGA B CUGGUGGAUAUGGCCAGGATT B 2826 R-008396493-000K 2430 506 CUGGUGGAUAUGGCCAGGA UCCUGGCCAUAUCCACCAGUU 2827 R-008396496-000L 1207 507 CAUCAUACUGGCUAGUGGU B CAUCAUACUGGCUAGUGGUTT B 2828 R-008396496-000L 1207 507 CAUCAUACUGGCUAGUGGU ACCACUAGCCAGUAUGAUGUU 2829 R-008396499-000M 592 508 GAUCCCAUCUACACAGUUU AAACUGUGUAGAUGGGAUCUU 2831 R-008396499-000M 592 508 GAUCCCAUCUACACAGUUU B GAUCCCAUCUACACAGUUUTT B 2830 R-008396502-000E 824 509 CACGCUAUCAUGCGUUCUC GAGAACGCAUGAUAGCGUGUU 2833 R-008396502-000E 824 509 CACGCUAUCAUGCGUUCUC B CACGCUAUCAUGCGUUCUCTT B 2832 R-008396505-000F 519 510 GACAGUAUGCAAUGACUCG B GACAGUAUGCAAUGACUCGTT B 2834 R-008396505-000F 519 510 GACAGUAUGCAAUGACUCG CGAGUCAUUGCAUACUGUCUU 2835 R-008396508-000G 3166 511 AAGUUGUUGUAACCUGCUG CAGCAGGUUACAACAACUUUU 2837 R-008396508-000G 3166 511 AAGUUGUUGUAACCUGCUG B AAGUUGUUGUAACCUGCUGTT B 2836 R-008396511-000N 1151 512 GCUAUUACGACAGACUGCC B GCUAUUACGACAGACUGCCTT B 2838 R-008396511-000N 1151 512 GCUAUUACGACAGACUGCC GGCAGUCUGUCGUAAUAGCUU 2839 R-008396514-000P 2566 513 GCCUCCAGGUGACAGCAAU B GCCUCCAGGUGACAGCAAUTT B 2840 R-008396514-000P 2566 513 GCCUCCAGGUGACAGCAAU AUUGCUGUCACCUGGAGGCUU 2841 R-008396517-000R 453 514 UCCUGUAUGAGUGGGAACA UGUUCCCACUCAUACAGGAUU 2843 R-008396517-000R 453 514 UCCUGUAUGAGUGGGAACA B UCCUGUAUGAGUGGGAACATT B 2842 R-008396520-000X 587 515 AUGCAGAUCCCAUCUACAC GUGUAGAUGGGAUCUGCAUUU 2845 R-008396520-000X 587 515 AUGCAGAUCCCAUCUACAC B AUGCAGAUCCCAUCUACACTT B 2844 R-008396523-000Y 930 516 UUUCCCAUCAUCGUGAGGG B UUUCCCAUCAUCGUGAGGGTT B 2846 R-008396523-000Y 930 516 UUUCCCAUCAUCGUGAGGG CCCUCACGAUGAUGGGAAAUU 2847 R-008396526-000Z 1585 517 CCAAGUGGGUGGUAUAGAG B CCAAGUGGGUGGUAUAGAGTT B 2848 R-008396526-000Z 1585 517 CCAAGUGGGUGGUAUAGAG CUCUAUACCACCCACUUGGUU 2849 R-008396529-000A 915 518 GGACCUUGCAUAACCUUUC B GGACCUUGCAUAACCUUUCTT B 2850 R-008396529-000A 915 518 GGACCUUGCAUAACCUUUC GAAAGGUUAUGCAAGGUCCUU 2851 R-008396532-000G 446 519 UCCCAAGUCCUGUAUGAGU ACUCAUACAGGACUUGGGAUU 2853 R-008396532-000G 446 519 UCCCAAGUCCUGUAUGAGU B UCCCAAGUCCUGUAUGAGUTT B 2852 R-008396535-000H 1869 520 CACGACUAGUUCAGUUGCU AGCAACUGAACUAGUCGUGUU 2855 R-008396535-000H 1869 520 CACGACUAGUUCAGUUGCU B CACGACUAGUUCAGUUGCUTT B 2854 R-008396538-000J 1960 521 CCGCAUGGAAGAAAUAGUU AACUAUUUCUUCCAUGCGGUU 2857 R-008396538-000J 1960 521 CCGCAUGGAAGAAAUAGUU B CCGCAUGGAAGAAAUAGUUTT B 2856 R-008396541-000R 1708 522 GGCCCAGAAUGCAGUUCGC B GGCCCAGAAUGCAGUUCGCTT B 2858 R-008396541-000R 1708 522 GGCCCAGAAUGCAGUUCGC GCGAACUGCAUUCUGGGCCUU 2859 R-008396544-000S 306 523 CCAUGGAACCAGACAGAAA UUUCUGUCUGGUUCCAUGGUU 2861 R-008396544-000S 306 523 CCAUGGAACCAGACAGAAA B CCAUGGAACCAGACAGAAATT B 2860 R-008396550-000Z 2281 524 GAAACGGCUUUCAGUUGAG B GAAACGGCUUUCAGUUGAGTT B 2862 R-008396550-000Z 2281 524 GAAACGGCUUUCAGUUGAG CUCAACUGAAAGCCGUUUCUU 2863 R-008396553-000A 3082 525 GGGAUAUGUAUGGGUAGGG B GGGAUAUGUAUGGGUAGGGTT B 2864 R-008396553-000A 3082 525 GGGAUAUGUAUGGGUAGGG CCCUACCCAUACAUAUCCCUU 2865 R-008396556-000B 1473 526 UUGGGACUCUUGUUCAGCU AGCUGAACAAGAGUCCCAAUU 2867 R-008396556-000B 1473 526 UUGGGACUCUUGUUCAGCU B UUGGGACUCUUGUUCAGCUTT B 2866 R-008396559-000C 559 527 UAUGUUCCCUGAGACAUUA UAAUGUCUCAGGGAACAUAUU 2869 R-008396559-000C 559 527 UAUGUUCCCUGAGACAUUA B UAUGUUCCCUGAGACAUUATT B 2868 R-008396562-000J 1416 528 GGACUCUCAGGAAUCUUUC B GGACUCUCAGGAAUCUUUCTT B 2870 R-008396562-000J 1416 528 GGACUCUCAGGAAUCUUUC GAAAGAUUCCUGAGAGUCCUU 2871 R-008396565-000K 2145 529 AAGCUGCAGAAGCUAUUGA B AAGCUGCAGAAGCUAUUGATT B 2872 R-008396565-000K 2145 529 AAGCUGCAGAAGCUAUUGA UCAAUAGCUUCUGCAGCUUUU 2873 R-008396568-000L 1994 530 GCCCUUCACAUCCUAGCUC B GCCCUUCACAUCCUAGCUCTT B 2874 R-008396568-000L 1994 530 GCCCUUCACAUCCUAGCUC GAGCUAGGAUGUGAAGGGCUU 2875 R-008396571-000T 1611 27 UGCGUACUGUCCUUCGGGC B UGCGUACUGUCCUUCGGGCTT B 2876 R-008396571-000T 1611 27 UGCGUACUGUCCUUCGGGC GCCCGAAGGACAGUACGCAUU 2877 R-008396574-000U 1702 531 AGAGAUGGCCCAGAAUGCA B AGAGAUGGCCCAGAAUGCATT B 2878 R-008396574-000U 1702 531 AGAGAUGGCCCAGAAUGCA UGCAUUCUGGGCCAUCUCUUU 2879 R-008396577-000V 417 532 GCAAUCCUGAGGAAGAGGA B GCAAUCCUGAGGAAGAGGATT B 2880 R-008396577-000V 417 532 GCAAUCCUGAGGAAGAGGA UCCUCUUCCUCAGGAUUGCUU 2881 R-008396580-000B 2444 533 CAGGAUGCCUUGGGUAUGG B CAGGAUGCCUUGGGUAUGGTT B 2882 R-008396580-000B 2444 533 CAGGAUGCCUUGGGUAUGG CCAUACCCAAGGCAUCCUGUU 2883 R-008396586-000D 555 534 CUGCUAUGUUCCCUGAGAC B CUGCUAUGUUCCCUGAGACTT B 2884 R-008396586-000D 555 534 CUGCUAUGUUCCCUGAGAC GUCUCAGGGAACAUAGCAGUU 2885 R-008396589-000E 2019 535 UUCACAACCGAAUUGUUAU B UUCACAACCGAAUUGUUAUTT B 2886 R-008396589-000E 2019 535 UUCACAACCGAAUUGUUAU AUAACAAUUCGGUUGUGAAUU 2887 R-008396592-000L 1197 536 AAAGCAAGCUCAUCAUACU B AAAGCAAGCUCAUCAUACUTT B 2888 R-008396592-000L 1197 536 AAAGCAAGCUCAUCAUACU AGUAUGAUGAGCUUGCUUUUU 2889 R-008396595-000M 415 537 AGGCAAUCCUGAGGAAGAG CUCUUCCUCAGGAUUGCCUUU 2891 R-008396595-000M 415 537 AGGCAAUCCUGAGGAAGAG B AGGCAAUCCUGAGGAAGAGTT B 2890 R-008396598-000N 2061 538 UGUUUGUGCAGCUGCUUUA B UGUUUGUGCAGCUGCUUUATT B 2892 R-008396598-000N 2061 538 UGUUUGUGCAGCUGCUUUA UAAAGCAGCUGCACAAACAUU 2893 R-008396601-000F 1352 539 GGAAUGCAAGCUUUAGGAC B GGAAUGCAAGCUUUAGGACTT B 2894 R-008396601-000F 1352 539 GGAAUGCAAGCUUUAGGAC GUCCUAAAGCUUGCAUUCCUU 2895 R-008396604-000G 1502 135 GAUGAUAUAAAUGUGGUCA UGACCACAUUUAUAUCAUCUU 2897 R-008396604-000G 1502 135 GAUGAUAUAAAUGUGGUCA B GAUGAUAUAAAUGUGGUCATT B 2896 R-008396607-000H 1331 540 CCGGCUAUUGUAGAAGCUG B CCGGCUAUUGUAGAAGCUGTT B 2898 R-008396607-000H 1331 540 CCGGCUAUUGUAGAAGCUG CAGCUUCUACAAUAGCCGGUU 2899 R-008396610-000P 1325 541 AAUAAGCCGGCUAUUGUAG B AAUAAGCCGGCUAUUGUAGTT B 2900 R-008396610-000P 1325 541 AAUAAGCCGGCUAUUGUAG CUACAAUAGCCGGCUUAUUUU 2901 R-008396613-000R 1486 542 UCAGCUUCUGGGUUCAGAU B UCAGCUUCUGGGUUCAGAUTT B 2902 R-008396613-000R 1486 542 UCAGCUUCUGGGUUCAGAU AUCUGAACCCAGAAGCUGAUU 2903 R-008396616-000S 454 543 CCUGUAUGAGUGGGAACAG B CCUGUAUGAGUGGGAACAGTT B 2904 R-008396616-000S 454 543 CCUGUAUGAGUGGGAACAG CUGUUCCCACUCAUACAGGUU 2905 R-008396619-000T 490 544 CACUCAAGAACAAGUAGCU B CACUCAAGAACAAGUAGCUTT B 2906 R-008396619-000T 490 544 CACUCAAGAACAAGUAGCU AGCUACUUGUUCUUGAGUGUU 2907 R-008396622-000Z 1996 545 CCUUCACAUCCUAGCUCGG B CCUUCACAUCCUAGCUCGGTT B 2908 R-008396622-000Z 1996 545 CCUUCACAUCCUAGCUCGG CCGAGCUAGGAUGUGAAGGUU 2909 R-008396625-000A 1839 546 AUGCACCUUUGCGUGAGCA B AUGCACCUUUGCGUGAGCATT B 2910 R-008396625-000A 1839 546 AUGCACCUUUGCGUGAGCA UGCUCACGCAAAGGUGCAUUU 2911 R-008396628-000B 1888 547 UGUUCGUGCACAUCAGGAU AUCCUGAUGUGCACGAACAUU 2913 R-008396628-000B 1888 547 UGUUCGUGCACAUCAGGAU B UGUUCGUGCACAUCAGGAUTT B 2912 R-008396631-000H 1879 548 UCAGUUGCUUGUUCGUGCA B UCAGUUGCUUGUUCGUGCATT B 2914 R-008396631-000H 1879 548 UCAGUUGCUUGUUCGUGCA UGCACGAACAAGCAACUGAUU 2915 R-008396634-000J 2508 172 ACUAUCCAGUUGAUGGGCU B ACUAUCCAGUUGAUGGGCUTT B 2916 R-008396634-000J 2508 172 ACUAUCCAGUUGAUGGGCU AGCCCAUCAACUGGAUAGUUU 2917 R-008396637-000K 1829 549 CCCGCAAAUCAUGCACCUU AAGGUGCAUGAUUUGCGGGUU 2919 R-008396637-000K 1829 549 CCCGCAAAUCAUGCACCUU B CCCGCAAAUCAUGCACCUUTT B 2918 R-008396640-000S 281 550 GCUGAUUUGAUGGAGUUGG B GCUGAUUUGAUGGAGUUGGTT B 2920 R-008396640-000S 281 550 GCUGAUUUGAUGGAGUUGG CCAACUCCAUCAAAUCAGCUU 2921 R-008396643-000T 1598 551 AUAGAGGCUCUUGUGCGUA UACGCACAAGAGCCUCUAUUU 2923 R-008396643-000T 1598 551 AUAGAGGCUCUUGUGCGUA B AUAGAGGCUCUUGUGCGUATT B 2922 R-008396646-000U 2135 552 CAGGACAAGGAAGCUGCAG B CAGGACAAGGAAGCUGCAGTT B 2924 R-008396646-000U 2135 552 CAGGACAAGGAAGCUGCAG CUGCAGCUUCCUUGUCCUGUU 2925 R-008396649-000V 642 67 UGGCUGAACCAUCACAGAU AUCUGUGAUGGUUCAGCCAUU 2927 R-008396649-000V 642 67 UGGCUGAACCAUCACAGAU B UGGCUGAACCAUCACAGAUTT B 2926 R-008396652-000B 1755 553 AGCUCUUACACCCACCAUC B AGCUCUUACACCCACCAUCTT B 2928 R-008396652-000B 1755 553 AGCUCUUACACCCACCAUC GAUGGUGGGUGUAAGAGCUUU 2929 R-008396655-000C 651 554 CAUCACAGAUGCUGAAACA B CAUCACAGAUGCUGAAACATT B 2930 R-008396655-000C 651 554 CAUCACAGAUGCUGAAACA UGUUUCAGCAUCUGUGAUGUU 2931 R-008396658-000D 1335 555 CUAUUGUAGAAGCUGGUGG CCACCAGCUUCUACAAUAGUU 2933 R-008396658-000D 1335 555 CUAUUGUAGAAGCUGGUGG B CUAUUGUAGAAGCUGGUGGTT B 2932 R-008396661-000K 2541 556 AUGCCCAGGACCUCAUGGA UCCAUGAGGUCCUGGGCAUUU 2935 R-008396661-000K 2541 556 AUGCCCAGGACCUCAUGGA B AUGCCCAGGACCUCAUGGATT B 2934 R-008396664-000L 531 557 UGACUCGAGCUCAGAGGGU B UGACUCGAGCUCAGAGGGUTT B 2936 R-008396664-000L 531 557 UGACUCGAGCUCAGAGGGU ACCCUCUGAGCUCGAGUCAUU 2937 R-008396667-000M 606 558 AGUUUGAUGCUGCUCAUCC B AGUUUGAUGCUGCUCAUCCTT B 2938 R-008396667-000M 606 558 AGUUUGAUGCUGCUCAUCC GGAUGAGCAGCAUCAAACUUU 2939 R-008396670-000U 1620 559 UCCUUCGGGCUGGUGACAG B UCCUUCGGGCUGGUGACAGTT B 2940 R-008396670-000U 1620 559 UCCUUCGGGCUGGUGACAG CUGUCACCAGCCCGAAGGAUU 2941 R-008396673-000V 2211 560 AUGAAGGUGUGGCGACAUA B AUGAAGGUGUGGCGACAUATT B 2942 R-008396673-000V 2211 560 AUGAAGGUGUGGCGACAUA UAUGUCGCCACACCUUCAUUU 2943 R-008396676-000W 2293 561 AGUUGAGCUGACCAGCUCU B AGUUGAGCUGACCAGCUCUTT B 2944 R-008396676-000W 2293 561 AGUUGAGCUGACCAGCUCU AGAGCUGGUCAGCUCAACUUU 2945 R-008396679-000X 1511 65 AAUGUGGUCACCUGUGCAG B AAUGUGGUCACCUGUGCAGTT B 2946 R-008396679-000X 1511 65 AAUGUGGUCACCUGUGCAG CUGCACAGGUGACCACAUUUU 2947 R-008396682-000D 455 562 CUGUAUGAGUGGGAACAGG B CUGUAUGAGUGGGAACAGGTT B 2948 R-008396682-000D 455 562 CUGUAUGAGUGGGAACAGG CCUGUUCCCACUCAUACAGUU 2949 R-008396685-000E 540 563 CUCAGAGGGUACGAGCUGC B CUCAGAGGGUACGAGCUGCTT B 2950 R-008396685-000E 540 563 CUCAGAGGGUACGAGCUGC GCAGCUCGUACCCUCUGAGUU 2951 R-008396688-000F 416 564 GGCAAUCCUGAGGAAGAGG CCUCUUCCUCAGGAUUGCCUU 2953 R-008396688-000F 416 564 GGCAAUCCUGAGGAAGAGG B GGCAAUCCUGAGGAAGAGGTT B 2952 R-008396691-000M 1669 130 UCUUCGUCAUCUGACCAGC GCUGGUCAGAUGACGAAGAUU 2955 R-008396691-000M 1669 130 UCUUCGUCAUCUGACCAGC B UCUUCGUCAUCUGACCAGCTT B 2954 R-008396694-000N 1210 565 CAUACUGGCUAGUGGUGGA B CAUACUGGCUAGUGGUGGATT B 2956 R-008396694-000N 1210 565 CAUACUGGCUAGUGGUGGA UCCACCACUAGCCAGUAUGUU 2957 R-008396697-000P 2262 566 ACAAGCCACAAGAUUACAA UUGUAAUCUUGUGGCUUGUUU 2959 R-008396697-000P 2262 566 ACAAGCCACAAGAUUACAA B ACAAGCCACAAGAUUACAATT B 2958 R-008396700-000G 1604 567 GCUCUUGUGCGUACUGUCC GGACAGUACGCACAAGAGCUU 2961 R-008396700-000G 1604 567 GCUCUUGUGCGUACUGUCC B GCUCUUGUGCGUACUGUCCTT B 2960 R-008396703-000H 435 568 AUGUGGAUACCUCCCAAGU B AUGUGGAUACCUCCCAAGUTT B 2962 R-008396703-000H 435 568 AUGUGGAUACCUCCCAAGU ACUUGGGAGGUAUCCACAUUU 2963 R-008396706-000J 2060 569 UUGUUUGUGCAGCUGCUUU B UUGUUUGUGCAGCUGCUUUTT B 2964 R-008396706-000J 2060 569 UUGUUUGUGCAGCUGCUUU AAAGCAGCUGCACAAACAAUU 2965 R-008396709-000K 2225 570 ACAUAUGCAGCUGCUGUUU B ACAUAUGCAGCUGCUGUUUTT B 2966 R-008396709-000K 2225 570 ACAUAUGCAGCUGCUGUUU AAACAGCAGCUGCAUAUGUUU 2967 R-008396712-000S 2510 47 UAUCCAGUUGAUGGGCUGC B UAUCCAGUUGAUGGGCUGCTT B 2968 R-008396712-000S 2510 47 UAUCCAGUUGAUGGGCUGC GCAGCCCAUCAACUGGAUAUU 2969 R-008396715-000T 481 571 UCAGUCCUUCACUCAAGAA UUCUUGAGUGAAGGACUGAUU 2971 R-008396715-000T 481 571 UCAGUCCUUCACUCAAGAA B UCAGUCCUUCACUCAAGAATT B 2970 R-008396718-000U 917 572 ACCUUGCAUAACCUUUCCC B ACCUUGCAUAACCUUUCCCTT B 2972 R-008396718-000U 917 572 ACCUUGCAUAACCUUUCCC GGGAAAGGUUAUGCAAGGUUU 2973 R-008396721-000A 2221 573 GGCGACAUAUGCAGCUGCU B GGCGACAUAUGCAGCUGCUTT B 2974 R-008396721-000A 2221 573 GGCGACAUAUGCAGCUGCU AGCAGCUGCAUAUGUCGCCUU 2975 R-008396724-000B 849 574 UGGUGUCUGCUAUUGUACG CGUACAAUAGCAGACACCAUU 2977 R-008396724-000B 849 574 UGGUGUCUGCUAUUGUACG B UGGUGUCUGCUAUUGUACGTT B 2976 R-008396727-000C 562 575 GUUCCCUGAGACAUUAGAU B GUUCCCUGAGACAUUAGAUTT B 2978 R-008396727-000C 562 575 GUUCCCUGAGACAUUAGAU AUCUAAUGUCUCAGGGAACUU 2979 R-008396730-000J 617 140 GCUCAUCCCACUAAUGUCC GGACAUUAGUGGGAUGAGCUU 2981 R-008396730-000J 617 140 GCUCAUCCCACUAAUGUCC B GCUCAUCCCACUAAUGUCCTT B 2980 R-008396733-000K 1787 576 AUAAAGGCUACUGUUGGAU B AUAAAGGCUACUGUUGGAUTT B 2982 R-008396733-000K 1787 576 AUAAAGGCUACUGUUGGAU AUCCAACAGUAGCCUUUAUUU 2983 R-008396736-000L 1860 577 GUGCCAUUCCACGACUAGU ACUAGUCGUGGAAUGGCACUU 2985 R-008396736-000L 1860 577 GUGCCAUUCCACGACUAGU B GUGCCAUUCCACGACUAGUTT B 2984 R-008396739-000M 1590 578 UGGGUGGUAUAGAGGCUCU B UGGGUGGUAUAGAGGCUCUTT B 2986 R-008396739-000M 1590 578 UGGGUGGUAUAGAGGCUCU AGAGCCUCUAUACCACCCAUU 2987 R-008396742-000U 955 579 GGCCAUCUUUAAGUCUGGA UCCAGACUUAAAGAUGGCCUU 2989 R-008396742-000U 955 579 GGCCAUCUUUAAGUCUGGA B GGCCAUCUUUAAGUCUGGATT B 2988 R-008396745-000V 2365 580 UAUUGGUGCCCAGGGAGAA B UAUUGGUGCCCAGGGAGAATT B 2990 R-008396745-000V 2365 580 UAUUGGUGCCCAGGGAGAA UUCUCCCUGGGCACCAAUAUU 2991 R-008396748-000W 534 581 CUCGAGCUCAGAGGGUACG B CUCGAGCUCAGAGGGUACGTT B 2992 R-008396748-000W 534 581 CUCGAGCUCAGAGGGUACG CGUACCCUCUGAGCUCGAGUU 2993 R-008396751-000C 706 582 AGAACUUGCCACACGUGCA UGCACGUGUGGCAAGUUCUUU 2995 R-008396751-000C 706 582 AGAACUUGCCACACGUGCA B AGAACUUGCCACACGUGCATT B 2994 R-008396754-000D 1740 583 UACCAGUUGUGGUUAAGCU B UACCAGUUGUGGUUAAGCUTT B 2996 R-008396754-000D 1740 583 UACCAGUUGUGGUUAAGCU AGCUUAACCACAACUGGUAUU 2997 R-008396757-000E 638 584 CGUUUGGCUGAACCAUCAC B CGUUUGGCUGAACCAUCACTT B 2998 R-008396757-000E 638 584 CGUUUGGCUGAACCAUCAC GUGAUGGUUCAGCCAAACGUU 2999 R-008396760-000L 1334 585 GCUAUUGUAGAAGCUGGUG CACCAGCUUCUACAAUAGCUU 3001 R-008396760-000L 1334 585 GCUAUUGUAGAAGCUGGUG B GCUAUUGUAGAAGCUGGUGTT B 3000 R-008396763-000M 971 586 GGAGGCAUUCCUGCCCUGG B GGAGGCAUUCCUGCCCUGGTT B 3002 R-008396763-000M 971 586 GGAGGCAUUCCUGCCCUGG CCAGGGCAGGAAUGCCUCCUU 3003 R-008396766-000N 2493 587 ACCACCCUGGUGCUGACUA UAGUCAGCACCAGGGUGGUUU 3005 R-008396766-000N 2493 587 ACCACCCUGGUGCUGACUA B ACCACCCUGGUGCUGACUATT B 3004 R-008396769-000P 1814 588 AAUCUUGCCCUUUGUCCCG B AAUCUUGCCCUUUGUCCCGTT B 3006 R-008396769-000P 1814 588 AAUCUUGCCCUUUGUCCCG CGGGACAAAGGGCAAGAUUUU 3007 R-008396772-000W 1088 589 CGUUUAGCUGGUGGGCUGC GCAGCCCACCAGCUAAACGUU 3009 R-008396772-000W 1088 589 CGUUUAGCUGGUGGGCUGC B CGUUUAGCUGGUGGGCUGCTT B 3008 R-008396775-000X 2292 590 CAGUUGAGCUGACCAGCUC GAGCUGGUCAGCUCAACUGUU 3011 R-008396775-000X 2292 590 CAGUUGAGCUGACCAGCUC B CAGUUGAGCUGACCAGCUCTT B 3010 R-008396778-000Y 1504 591 UGAUAUAAAUGUGGUCACC GGUGACCACAUUUAUAUCAUU 3013 R-008396778-000Y 1504 591 UGAUAUAAAUGUGGUCACC B UGAUAUAAAUGUGGUCACCTT B 3012 R-008396781-000E 404 592 CUGAGUGGUAAAGGCAAUC GAUUGCCUUUACCACUCAGUU 3015 R-008396781-000E 404 592 CUGAGUGGUAAAGGCAAUC B CUGAGUGGUAAAGGCAAUCTT B 3014 R-008396784-000F 1301 593 AAGGUGCUAUCUGUCUGCU AGCAGACAGAUAGCACCUUUU 3017 R-008396784-000F 1301 593 AAGGUGCUAUCUGUCUGCU B AAGGUGCUAUCUGUCUGCUTT B 3016 R-008396787-000G 2004 594 UCCUAGCUCGGGAUGUUCA UGAACAUCCCGAGCUAGGAUU 3019 R-008396787-000G 2004 594 UCCUAGCUCGGGAUGUUCA B UCCUAGCUCGGGAUGUUCATT B 3018 R-008396790-000N 853 6 GUCUGCUAUUGUACGUACC GGUACGUACAAUAGCAGACUU 3021 R-008396790-000N 853 6 GUCUGCUAUUGUACGUACC B GUCUGCUAUUGUACGUACCTT B 3020 R-008396793-000P 277 595 UCAAGCUGAUUUGAUGGAG B UCAAGCUGAUUUGAUGGAGTT B 3022 R-008396793-000P 277 595 UCAAGCUGAUUUGAUGGAG CUCCAUCAAAUCAGCUUGAUU 3023 R-008396796-000R 2304 596 CCAGCUCUCUCUUCAGAAC GUUCUGAAGAGAGAGCUGGUU 3025 R-008396796-000R 2304 596 CCAGCUCUCUCUUCAGAAC B CCAGCUCUCUCUUCAGAACTT B 3024 R-008396799-000S 300 597 ACAUGGCCAUGGAACCAGA B ACAUGGCCAUGGAACCAGATT B 3026 R-008396799-000S 300 597 ACAUGGCCAUGGAACCAGA UCUGGUUCCAUGGCCAUGUUU 3027 R-008396802-000J 1906 598 UACCCAGCGCCGUACGUCC B UACCCAGCGCCGUACGUCCTT B 3028 R-008396802-000J 1906 598 UACCCAGCGCCGUACGUCC GGACGUACGGCGCUGGGUAUU 3029 R-008396805-000K 1973 599 AUAGUUGAAGGUUGUACCG CGGUACAACCUUCAACUAUUU 3031 R-008396805-000K 1973 599 AUAGUUGAAGGUUGUACCG B AUAGUUGAAGGUUGUACCGTT B 3030 R-008396808-000L 1360 600 AGCUUUAGGACUUCACCUG B AGCUUUAGGACUUCACCUGTT B 3032 R-008396808-000L 1360 600 AGCUUUAGGACUUCACCUG CAGGUGAAGUCCUAAAGCUUU 3033 R-008396811-000T 2094 601 ACAUCCAAAGAGUAGCUGC GCAGCUACUCUUUGGAUGUUU 3035 R-008396811-000T 2094 601 ACAUCCAAAGAGUAGCUGC B ACAUCCAAAGAGUAGCUGCTT B 3034 R-008396814-000U 920 602 UUGCAUAACCUUUCCCAUC B UUGCAUAACCUUUCCCAUCTT B 3036 R-008396814-000U 920 602 UUGCAUAACCUUUCCCAUC GAUGGGAAAGGUUAUGCAAUU 3037 R-008396817-000V 1707 603 UGGCCCAGAAUGCAGUUCG CGAACUGCAUUCUGGGCCAUU 3039 R-008396817-000V 1707 603 UGGCCCAGAAUGCAGUUCG B UGGCCCAGAAUGCAGUUCGTT B 3038 R-008396820-000B 1808 604 AUUCGAAAUCUUGCCCUUU B AUUCGAAAUCUUGCCCUUUTT B 3040 R-008396820-000B 1808 604 AUUCGAAAUCUUGCCCUUU AAAGGGCAAGAUUUCGAAUUU 3041 R-008396823-000C 1326 605 AUAAGCCGGCUAUUGUAGA UCUACAAUAGCCGGCUUAUUU 3043 R-008396823-000C 1326 605 AUAAGCCGGCUAUUGUAGA B AUAAGCCGGCUAUUGUAGATT B 3042 R-008396826-000D 1158 606 CGACAGACUGCCUUCAAAU B CGACAGACUGCCUUCAAAUTT B 3044 R-008396826-000D 1158 606 CGACAGACUGCCUUCAAAU AUUUGAAGGCAGUCUGUCGUU 3045 R-008396829-000E 781 607 UGCAGUUAUGGUCCAUCAG B UGCAGUUAUGGUCCAUCAGTT B 3046 R-008396829-000E 781 607 UGCAGUUAUGGUCCAUCAG CUGAUGGACCAUAACUGCAUU 3047 R-008396832-000L 607 608 GUUUGAUGCUGCUCAUCCC B GUUUGAUGCUGCUCAUCCCTT B 3048 R-008396832-000L 607 608 GUUUGAUGCUGCUCAUCCC GGGAUGAGCAGCAUCAAACUU 3049 R-008396835-000M 627 609 CUAAUGUCCAGCGUUUGGC GCCAAACGCUGGACAUUAGUU 3051 R-008396835-000M 627 609 CUAAUGUCCAGCGUUUGGC B CUAAUGUCCAGCGUUUGGCTT B 3050 R-008396838-000N 500 610 CAAGUAGCUGAUAUUGAUG B CAAGUAGCUGAUAUUGAUGTT B 3052 R-008396838-000N 500 610 CAAGUAGCUGAUAUUGAUG CAUCAAUAUCAGCUACUUGUU 3053 R-008396841-000V 2185 611 UCUGACAGAGUUACUUCAC B UCUGACAGAGUUACUUCACTT B 3054 R-008396841-000V 2185 611 UCUGACAGAGUUACUUCAC GUGAAGUAACUCUGUCAGAUU 3055 R-008396844-000W 1592 612 GGUGGUAUAGAGGCUCUUG B GGUGGUAUAGAGGCUCUUGTT B 3056 R-008396844-000W 1592 612 GGUGGUAUAGAGGCUCUUG CAAGAGCCUCUAUACCACCUU 3057 R-008396847-000X 758 613 GACCAGGUGGUGGUUAAUA B GACCAGGUGGUGGUUAAUATT B 3058 R-008396847-000X 758 613 GACCAGGUGGUGGUUAAUA UAUUAACCACCACCUGGUCUU 3059 R-008396850-000D 2551 614 CCUCAUGGAUGGGCUGCCU B CCUCAUGGAUGGGCUGCCUTT B 3060 R-008396850-000D 2551 614 CCUCAUGGAUGGGCUGCCU AGGCAGCCCAUCCAUGAGGUU 3061 R-008396853-000E 1409 615 UGUCUUUGGACUCUCAGGA B UGUCUUUGGACUCUCAGGATT B 3062 R-008396853-000E 1409 615 UGUCUUUGGACUCUCAGGA UCCUGAGAGUCCAAAGACAUU 3063 R-008396856-000F 497 616 GAACAAGUAGCUGAUAUUG B GAACAAGUAGCUGAUAUUGTT B 3064 R-008396856-000F 497 616 GAACAAGUAGCUGAUAUUG CAAUAUCAGCUACUUGUUCUU 3065 R-008396859-000G 381 617 GUGCCACUACCACAGCUCC B GUGCCACUACCACAGCUCCTT B 3066 R-008396859-000G 381 617 GUGCCACUACCACAGCUCC GGAGCUGUGGUAGUGGCACUU 3067 R-008396862-000N 1841 618 GCACCUUUGCGUGAGCAGG CCUGCUCACGCAAAGGUGCUU 3069 R-008396862-000N 1841 618 GCACCUUUGCGUGAGCAGG B GCACCUUUGCGUGAGCAGGTT B 3068 R-008396865-000P 1368 619 GACUUCACCUGACAGAUCC B GACUUCACCUGACAGAUCCTT B 3070 R-008396865-000P 1368 619 GACUUCACCUGACAGAUCC GGAUCUGUCAGGUGAAGUCUU 3071 R-008396868-000R 2047 620 AAAUACCAUUCCAUUGUUU AAACAAUGGAAUGGUAUUUUU 3073 R-008396868-000R 2047 620 AAAUACCAUUCCAUUGUUU B AAAUACCAUUCCAUUGUUUTT B 3072 R-008396871-000X 492 621 CUCAAGAACAAGUAGCUGA B CUCAAGAACAAGUAGCUGATT B 3074 R-008396871-000X 492 621 CUCAAGAACAAGUAGCUGA UCAGCUACUUGUUCUUGAGUU 3075 R-008396874-000Y 832 126 CAUGCGUUCUCCUCAGAUG B CAUGCGUUCUCCUCAGAUGTT B 3076 R-008396874-000Y 832 126 CAUGCGUUCUCCUCAGAUG CAUCUGAGGAGAACGCAUGUU 3077 R-008396877-000Z 2118 622 UCCUCUGUGAACUUGCUCA B UCCUCUGUGAACUUGCUCATT B 3078 R-008396877-000Z 2118 622 UCCUCUGUGAACUUGCUCA UGAGCAAGUUCACAGAGGAUU 3079 R-008396880-000F 968 623 UCUGGAGGCAUUCCUGCCC GGGCAGGAAUGCCUCCAGAUU 3081 R-008396880-000F 968 623 UCUGGAGGCAUUCCUGCCC B UCUGGAGGCAUUCCUGCCCTT B 3080 R-008396883-000G 965 624 AAGUCUGGAGGCAUUCCUG CAGGAAUGCCUCCAGACUUUU 3083 R-008396883-000G 965 624 AAGUCUGGAGGCAUUCCUG B AAGUCUGGAGGCAUUCCUGTT B 3082 R-008396886-000H 1977 625 UUGAAGGUUGUACCGGAGC GCUCCGGUACAACCUUCAAUU 3085 R-008396886-000H 1977 625 UUGAAGGUUGUACCGGAGC B UUGAAGGUUGUACCGGAGCTT B 3084 R-008396889-000J 2001 626 ACAUCCUAGCUCGGGAUGU B ACAUCCUAGCUCGGGAUGUTT B 3086 R-008396889-000J 2001 626 ACAUCCUAGCUCGGGAUGU ACAUCCCGAGCUAGGAUGUUU 3087 R-008396892-000R 1191 627 ACCAAGAAAGCAAGCUCAU B ACCAAGAAAGCAAGCUCAUTT B 3088 R-008396892-000R 1191 627 ACCAAGAAAGCAAGCUCAU AUGAGCUUGCUUUCUUGGUUU 3089 R-008396895-000S 640 628 UUUGGCUGAACCAUCACAG B UUUGGCUGAACCAUCACAGTT B 3090 R-008396895-000S 640 628 UUUGGCUGAACCAUCACAG CUGUGAUGGUUCAGCCAAAUU 3091 R-008396898-000T 715 629 CACACGUGCAAUCCCUGAA B CACACGUGCAAUCCCUGAATT B 3092 R-008396898-000T 715 629 CACACGUGCAAUCCCUGAA UUCAGGGAUUGCACGUGUGUU 3093 R-008396901-000K 1204 630 GCUCAUCAUACUGGCUAGU ACUAGCCAGUAUGAUGAGCUU 3095 R-008396901-000K 1204 630 GCUCAUCAUACUGGCUAGU B GCUCAUCAUACUGGCUAGUTT B 3094 R-008396904-000L 3093 631 GGGUAGGGUAAAUCAGUAA B GGGUAGGGUAAAUCAGUAATT B 3096 R-008396904-000L 3093 631 GGGUAGGGUAAAUCAGUAA UUACUGAUUUACCCUACCCUU 3097 R-008396907-000M 1371 632 UUCACCUGACAGAUCCAAG CUUGGAUCUGUCAGGUGAAUU 3099 R-008396907-000M 1371 632 UUCACCUGACAGAUCCAAG B UUCACCUGACAGAUCCAAGTT B 3098 R-008396910-000U 1424 121 AGGAAUCUUUCAGAUGCUG B AGGAAUCUUUCAGAUGCUGTT B 3100 R-008396910-000U 1424 121 AGGAAUCUUUCAGAUGCUG CAGCAUCUGAAAGAUUCCUUU 3101 R-008396913-000V 860 161 AUUGUACGUACCAUGCAGA B AUUGUACGUACCAUGCAGATT B 3102 R-008396913-000V 860 161 AUUGUACGUACCAUGCAGA UCUGCAUGGUACGUACAAUUU 3103 R-008396916-000W 409 633 UGGUAAAGGCAAUCCUGAG B UGGUAAAGGCAAUCCUGAGTT B 3104 R-008396916-000W 409 633 UGGUAAAGGCAAUCCUGAG CUCAGGAUUGCCUUUACCAUU 3105 R-008396919-000X 1143 7 AAUUCUUGGCUAUUACGAC GUCGUAAUAGCCAAGAAUUUU 3107 R-008396919-000X 1143 7 AAUUCUUGGCUAUUACGAC B AAUUCUUGGCUAUUACGACTT B 3106 R-008396922-000D 2405 634 GAUCCUAGCUAUCGUUCUU B GAUCCUAGCUAUCGUUCUUTT B 3108 R-008396922-000D 2405 634 GAUCCUAGCUAUCGUUCUU AAGAACGAUAGCUAGGAUCUU 3109 R-008396928-000F 1671 635 UUCGUCAUCUGACCAGCCG CGGCUGGUCAGAUGACGAAUU 3111 R-008396928-000F 1671 635 UUCGUCAUCUGACCAGCCG B UUCGUCAUCUGACCAGCCGTT B 3110 R-008396931-000M 1427 636 AAUCUUUCAGAUGCUGCAA B AAUCUUUCAGAUGCUGCAATT B 3112 R-008396931-000M 1427 636 AAUCUUUCAGAUGCUGCAA UUGCAGCAUCUGAAAGAUUUU 3113 R-008396934-000N 1717 637 UGCAGUUCGCCUUCACUAU AUAGUGAAGGCGAACUGCAUU 3115 R-008396934-000N 1717 637 UGCAGUUCGCCUUCACUAU B UGCAGUUCGCCUUCACUAUTT B 3114 R-008396937-000P 2400 638 AGGAUGAUCCUAGCUAUCG CGAUAGCUAGGAUCAUCCUUU 3117 R-008396937-000P 2400 638 AGGAUGAUCCUAGCUAUCG B AGGAUGAUCCUAGCUAUCGTT B 3116 R-008396940-000W 2305 639 CAGCUCUCUCUUCAGAACA B CAGCUCUCUCUUCAGAACATT B 3118 R-008396940-000W 2305 639 CAGCUCUCUCUUCAGAACA UGUUCUGAAGAGAGAGCUGUU 3119 R-008396943-000X 1928 640 GGUGGGACACAGCAGCAAU B GGUGGGACACAGCAGCAAUTT B 3120 R-008396943-000X 1928 640 GGUGGGACACAGCAGCAAU AUUGCUGCUGUGUCCCACCUU 3121 R-008396946-000Y 2399 641 CAGGAUGAUCCUAGCUAUC B CAGGAUGAUCCUAGCUAUCTT B 3122 R-008396946-000Y 2399 641 CAGGAUGAUCCUAGCUAUC GAUAGCUAGGAUCAUCCUGUU 3123 R-008396949-000Z 426 642 AGGAAGAGGAUGUGGAUAC B AGGAAGAGGAUGUGGAUACTT B 3124 R-008396949-000Z 426 642 AGGAAGAGGAUGUGGAUAC GUAUCCACAUCCUCUUCCUUU 3125 R-008396952-000F 1309 643 AUCUGUCUGCUCUAGUAAU AUUACUAGAGCAGACAGAUUU 3127 R-008396952-000F 1309 643 AUCUGUCUGCUCUAGUAAU B AUCUGUCUGCUCUAGUAAUTT B 3126 R-008396955-000G 925 644 UAACCUUUCCCAUCAUCGU B UAACCUUUCCCAUCAUCGUTT B 3128 R-008396955-000G 925 644 UAACCUUUCCCAUCAUCGU ACGAUGAUGGGAAAGGUUAUU 3129 R-008396958-000H 2072 645 CUGCUUUAUUCUCCCAUUG CAAUGGGAGAAUAAAGCAGUU 3131 R-008396958-000H 2072 645 CUGCUUUAUUCUCCCAUUG B CUGCUUUAUUCUCCCAUUGTT B 3130 R-008396964-000R 2939 646 AAUUGUAAUCUGAAUAAAG B AAUUGUAAUCUGAAUAAAGTT B 3132 R-008396964-000R 2939 646 AAUUGUAAUCUGAAUAAAG CUUUAUUCAGAUUACAAUUUU 3133 R-008396973-000Z 1480 647 UCUUGUUCAGCUUCUGGGU B UCUUGUUCAGCUUCUGGGUTT B 3134 R-008396973-000Z 1480 647 UCUUGUUCAGCUUCUGGGU ACCCAGAAGCUGAACAAGAUU 3135 R-008396976-000A 1889 648 GUUCGUGCACAUCAGGAUA B GUUCGUGCACAUCAGGAUATT B 3136 R-008396976-000A 1889 648 GUUCGUGCACAUCAGGAUA UAUCCUGAUGUGCACGAACUU 3137 R-008396979-000B 699 649 AUGAUGCAGAACUUGCCAC B AUGAUGCAGAACUUGCCACTT B 3138 R-008396979-000B 699 649 AUGAUGCAGAACUUGCCAC GUGGCAAGUUCUGCAUCAUUU 3139 R-008396982-000H 506 650 GCUGAUAUUGAUGGACAGU B GCUGAUAUUGAUGGACAGUTT B 3140 R-008396982-000H 506 650 GCUGAUAUUGAUGGACAGU ACUGUCCAUCAAUAUCAGCUU 3141 R-008396985-000J 1750 651 GGUUAAGCUCUUACACCCA UGGGUGUAAGAGCUUAACCUU 3143 R-008396985-000J 1750 651 GGUUAAGCUCUUACACCCA B GGUUAAGCUCUUACACCCATT B 3142 R-008396988-000K 1820 652 GCCCUUUGUCCCGCAAAUC B GCCCUUUGUCCCGCAAAUCTT B 3144 R-008396988-000K 1820 652 GCCCUUUGUCCCGCAAAUC GAUUUGCGGGACAAAGGGCUU 3145 R-008396991-000S 541 653 UCAGAGGGUACGAGCUGCU AGCAGCUCGUACCCUCUGAUU 3147 R-008396991-000S 541 653 UCAGAGGGUACGAGCUGCU B UCAGAGGGUACGAGCUGCUTT B 3146 R-008396994-000T 880 102 UACAAAUGAUGUAGAAACA B UACAAAUGAUGUAGAAACATT B 3148 R-008396994-000T 880 102 UACAAAUGAUGUAGAAACA UGUUUCUACAUCAUUUGUAUU 3149 R-008396997-000U 665 654 AAACAUGCAGUUGUAAACU B AAACAUGCAGUUGUAAACUTT B 3150 R-008396997-000U 665 654 AAACAUGCAGUUGUAAACU AGUUUACAACUGCAUGUUUUU 3151 R-008397000-000H 1817 655 CUUGCCCUUUGUCCCGCAA UUGCGGGACAAAGGGCAAGUU 3153 R-008397000-000H 1817 655 CUUGCCCUUUGUCCCGCAA B CUUGCCCUUUGUCCCGCAATT B 3152 R-008397003-000J 2275 656 UUACAAGAAACGGCUUUCA UGAAAGCCGUUUCUUGUAAUU 3155 R-008397003-000J 2275 656 UUACAAGAAACGGCUUUCA B UUACAAGAAACGGCUUUCATT B 3154 R-008397006-000K 2426 657 CACUCUGGUGGAUAUGGCC GGCCAUAUCCACCAGAGUGUU 3157 R-008397006-000K 2426 657 CACUCUGGUGGAUAUGGCC B CACUCUGGUGGAUAUGGCCTT B 3156 R-008397009-000L 958 658 CAUCUUUAAGUCUGGAGGC B CAUCUUUAAGUCUGGAGGCTT B 3158 R-008397009-000L 958 658 CAUCUUUAAGUCUGGAGGC GCCUCCAGACUUAAAGAUGUU 3159 R-008397012-000T 1657 659 UGCCAUCUGUGCUCUUCGU B UGCCAUCUGUGCUCUUCGUTT B 3160 R-008397012-000T 1657 659 UGCCAUCUGUGCUCUUCGU ACGAAGAGCACAGAUGGCAUU 3161 R-008397015-000U 1146 660 UCUUGGCUAUUACGACAGA UCUGUCGUAAUAGCCAAGAUU 3163 R-008397015-000U 1146 660 UCUUGGCUAUUACGACAGA B UCUUGGCUAUUACGACAGATT B 3162 R-008397018-000V 3078 661 AUUUGGGAUAUGUAUGGGU B AUUUGGGAUAUGUAUGGGUTT B 3164 R-008397018-000V 3078 661 AUUUGGGAUAUGUAUGGGU ACCCAUACAUAUCCCAAAUUU 3165 R-008397021-000B 1008 662 CAGUGGAUUCUGUGUUGUU AACAACACAGAAUCCACUGUU 3167 R-008397021-000B 1008 662 CAGUGGAUUCUGUGUUGUU B CAGUGGAUUCUGUGUUGUUTT B 3166 R-008397024-000C 1621 663 CCUUCGGGCUGGUGACAGG CCUGUCACCAGCCCGAAGGUU 3169 R-008397024-000C 1621 663 CCUUCGGGCUGGUGACAGG B CCUUCGGGCUGGUGACAGGTT B 3168 R-008397027-000D 1932 664 GGACACAGCAGCAAUUUGU B GGACACAGCAGCAAUUUGUTT B 3170 R-008397027-000D 1932 664 GGACACAGCAGCAAUUUGU ACAAAUUGCUGCUGUGUCCUU 3171 R-008397030-000K 1909 665 CCAGCGCCGUACGUCCAUG CAUGGACGUACGGCGCUGGUU 3173 R-008397030-000K 1909 665 CCAGCGCCGUACGUCCAUG B CCAGCGCCGUACGUCCAUGTT B 3172 R-008397033-000L 2279 666 AAGAAACGGCUUUCAGUUG CAACUGAAAGCCGUUUCUUUU 3175 R-008397033-000L 2279 666 AAGAAACGGCUUUCAGUUG B AAGAAACGGCUUUCAGUUGTT B 3174 R-008397036-000M 574 667 AUUAGAUGAGGGCAUGCAG B AUUAGAUGAGGGCAUGCAGTT B 3176 R-008397036-000M 574 667 AUUAGAUGAGGGCAUGCAG CUGCAUGCCCUCAUCUAAUUU 3177 R-008397039-000N 2303 668 ACCAGCUCUCUCUUCAGAA UUCUGAAGAGAGAGCUGGUUU 3179 R-008397039-000N 2303 668 ACCAGCUCUCUCUUCAGAA B ACCAGCUCUCUCUUCAGAATT B 3178 R-008397042-000V 784 669 AGUUAUGGUCCAUCAGCUU B AGUUAUGGUCCAUCAGCUUTT B 3180 R-008397042-000V 784 669 AGUUAUGGUCCAUCAGCUU AAGCUGAUGGACCAUAACUUU 3181 R-008397045-000W 2507 670 GACUAUCCAGUUGAUGGGC GCCCAUCAACUGGAUAGUCUU 3183 R-008397045-000W 2507 670 GACUAUCCAGUUGAUGGGC B GACUAUCCAGUUGAUGGGCTT B 3182 R-008397048-000X 995 671 AUGCUUGGUUCACCAGUGG B AUGCUUGGUUCACCAGUGGTT B 3184 R-008397048-000X 995 671 AUGCUUGGUUCACCAGUGG CCACUGGUGAACCAAGCAUUU 3185 R-008397051-000D 2006 672 CUAGCUCGGGAUGUUCACA UGUGAACAUCCCGAGCUAGUU 3187 R-008397051-000D 2006 672 CUAGCUCGGGAUGUUCACA B CUAGCUCGGGAUGUUCACATT B 3186 R-008397054-000E 1757 673 CUCUUACACCCACCAUCCC GGGAUGGUGGGUGUAAGAGUU 3189 R-008397054-000E 1757 673 CUCUUACACCCACCAUCCC B CUCUUACACCCACCAUCCCTT B 3188 R-008397057-000F 2129 674 CUUGCUCAGGACAAGGAAG B CUUGCUCAGGACAAGGAAGTT B 3190 R-008397057-000F 2129 674 CUUGCUCAGGACAAGGAAG CUUCCUUGUCCUGAGCAAGUU 3191 R-008397060-000M 2272 675 AGAUUACAAGAAACGGCUU B AGAUUACAAGAAACGGCUUTT B 3192 R-008397060-000M 2272 675 AGAUUACAAGAAACGGCUU AAGCCGUUUCUUGUAAUCUUU 3193 R-008397063-000N 389 676 ACCACAGCUCCUUCUCUGA B ACCACAGCUCCUUCUCUGATT B 3194 R-008397063-000N 389 676 ACCACAGCUCCUUCUCUGA UCAGAGAAGGAGCUGUGGUUU 3195 R-008397066-000P 708 176 AACUUGCCACACGUGCAAU B AACUUGCCACACGUGCAAUTT B 3196 R-008397066-000P 708 176 AACUUGCCACACGUGCAAU AUUGCACGUGUGGCAAGUUUU 3197 R-008397069-000R 1435 677 AGAUGCUGCAACUAAACAG CUGUUUAGUUGCAGCAUCUUU 3199 R-008397069-000R 1435 677 AGAUGCUGCAACUAAACAG B AGAUGCUGCAACUAAACAGTT B 3198 R-008397072-000X 1247 34 AUAAUGAGGACCUAUACUU B AUAAUGAGGACCUAUACUUTT B 3200 R-008397072-000X 1247 34 AUAAUGAGGACCUAUACUU AAGUAUAGGUCCUCAUUAUUU 3201 R-008397075-000Y 1752 678 UUAAGCUCUUACACCCACC GGUGGGUGUAAGAGCUUAAUU 3203 R-008397075-000Y 1752 678 UUAAGCUCUUACACCCACC B UUAAGCUCUUACACCCACCTT B 3202 R-008397078-000Z 773 679 AAUAAGGCUGCAGUUAUGG CCAUAACUGCAGCCUUAUUUU 3205 R-008397078-000Z 773 679 AAUAAGGCUGCAGUUAUGG B AAUAAGGCUGCAGUUAUGGTT B 3204 R-008397081-000F 3080 680 UUGGGAUAUGUAUGGGUAG CUACCCAUACAUAUCCCAAUU 3207 R-008397081-000F 3080 680 UUGGGAUAUGUAUGGGUAG B UUGGGAUAUGUAUGGGUAGTT B 3206 R-008397084-000G 3174 681 GUAACCUGCUGUGAUACGA B GUAACCUGCUGUGAUACGATT B 3208 R-008397084-000G 3174 681 GUAACCUGCUGUGAUACGA UCGUAUCACAGCAGGUUACUU 3209 R-008397087-000H 1578 682 UGGUCUGCCAAGUGGGUGG B UGGUCUGCCAAGUGGGUGGTT B 3210 R-008397087-000H 1578 682 UGGUCUGCCAAGUGGGUGG CCACCCACUUGGCAGACCAUU 3211 R-008397090-000P 398 683 CCUUCUCUGAGUGGUAAAG B CCUUCUCUGAGUGGUAAAGTT B 3212 R-008397090-000P 398 683 CCUUCUCUGAGUGGUAAAG CUUUACCACUCAGAGAAGGUU 3213 R-008397093-000R 2153 684 GAAGCUAUUGAAGCUGAGG CCUCAGCUUCAAUAGCUUCUU 3215 R-008397093-000R 2153 684 GAAGCUAUUGAAGCUGAGG B GAAGCUAUUGAAGCUGAGGTT B 3214 R-008397096-000S 702 685 AUGCAGAACUUGCCACACG CGUGUGGCAAGUUCUGCAUUU 3217 R-008397096-000S 702 685 AUGCAGAACUUGCCACACG B AUGCAGAACUUGCCACACGTT B 3216 R-008397099-000T 503 686 GUAGCUGAUAUUGAUGGAC B GUAGCUGAUAUUGAUGGACTT B 3218 R-008397099-000T 503 686 GUAGCUGAUAUUGAUGGAC GUCCAUCAAUAUCAGCUACUU 3219 R-008397102-000K 276 687 CUCAAGCUGAUUUGAUGGA B CUCAAGCUGAUUUGAUGGATT B 3220 R-008397102-000K 276 687 CUCAAGCUGAUUUGAUGGA UCCAUCAAAUCAGCUUGAGUU 3221 R-008397105-000L 1962 688 GCAUGGAAGAAAUAGUUGA B GCAUGGAAGAAAUAGUUGATT B 3222 R-008397105-000L 1962 688 GCAUGGAAGAAAUAGUUGA UCAACUAUUUCUUCCAUGCUU 3223 R-008397108-000M 1347 689 CUGGUGGAAUGCAAGCUUU B CUGGUGGAAUGCAAGCUUUTT B 3224 R-008397108-000M 1347 689 CUGGUGGAAUGCAAGCUUU AAAGCUUGCAUUCCACCAGUU 3225 R-008397111-000U 2544 690 CCCAGGACCUCAUGGAUGG CCAUCCAUGAGGUCCUGGGUU 3227 R-008397111-000U 2544 690 CCCAGGACCUCAUGGAUGG B CCCAGGACCUCAUGGAUGGTT B 3226 R-008397114-000V 3079 691 UUUGGGAUAUGUAUGGGUA B UUUGGGAUAUGUAUGGGUATT B 3228 R-008397114-000V 3079 691 UUUGGGAUAUGUAUGGGUA UACCCAUACAUAUCCCAAAUU 3229 R-008397117-000W 3164 692 CAAAGUUGUUGUAACCUGC GCAGGUUACAACAACUUUGUU 3231 R-008397117-000W 3164 692 CAAAGUUGUUGUAACCUGC B CAAAGUUGUUGUAACCUGCTT B 3230 R-008397120-000C 2026 693 CCGAAUUGUUAUCAGAGGA B CCGAAUUGUUAUCAGAGGATT B 3232 R-008397120-000C 2026 693 CCGAAUUGUUAUCAGAGGA UCCUCUGAUAACAAUUCGGUU 3233 R-008397123-000D 2938 694 UAAUUGUAAUCUGAAUAAA B UAAUUGUAAUCUGAAUAAATT B 3234 R-008397123-000D 2938 694 UAAUUGUAAUCUGAAUAAA UUUAUUCAGAUUACAAUUAUU 3235 R-008397126-000E 2940 695 AUUGUAAUCUGAAUAAAGU ACUUUAUUCAGAUUACAAUUU 3237 R-008397126-000E 2940 695 AUUGUAAUCUGAAUAAAGU B AUUGUAAUCUGAAUAAAGUTT B 3236 R-008397129-000F 2027 696 CGAAUUGUUAUCAGAGGAC B CGAAUUGUUAUCAGAGGACTT B 3238 R-008397129-000F 2027 696 CGAAUUGUUAUCAGAGGAC GUCCUCUGAUAACAAUUCGUU 3239 R-008397132-000M 448 697 CCAAGUCCUGUAUGAGUGG CCACUCAUACAGGACUUGGUU 3241 R-008397132-000M 448 697 CCAAGUCCUGUAUGAGUGG B CCAAGUCCUGUAUGAGUGGTT B 3240 R-008397135-000N 1328 698 AAGCCGGCUAUUGUAGAAG B AAGCCGGCUAUUGUAGAAGTT B 3242 R-008397135-000N 1328 698 AAGCCGGCUAUUGUAGAAG CUUCUACAAUAGCCGGCUUUU 3243 R-008397138-000P 1970 33 GAAAUAGUUGAAGGUUGUA UACAACCUUCAACUAUUUCUU 3245 R-008397138-000P 1970 33 GAAAUAGUUGAAGGUUGUA B GAAAUAGUUGAAGGUUGUATT B 3244 R-008397141-000W 2406 699 AUCCUAGCUAUCGUUCUUU AAAGAACGAUAGCUAGGAUUU 3247 R-008397141-000W 2406 699 AUCCUAGCUAUCGUUCUUU B AUCCUAGCUAUCGUUCUUUTT B 3246 R-008397144-000X 924 700 AUAACCUUUCCCAUCAUCG B AUAACCUUUCCCAUCAUCGTT B 3248 R-008397144-000X 924 700 AUAACCUUUCCCAUCAUCG CGAUGAUGGGAAAGGUUAUUU 3249 R-008397147-000Y 1584 701 GCCAAGUGGGUGGUAUAGA UCUAUACCACCCACUUGGCUU 3251 R-008397147-000Y 1584 701 GCCAAGUGGGUGGUAUAGA B GCCAAGUGGGUGGUAUAGATT B 3250 R-008397150-000E 1871 702 CGACUAGUUCAGUUGCUUG B CGACUAGUUCAGUUGCUUGTT B 3252 R-008397150-000E 1871 702 CGACUAGUUCAGUUGCUUG CAAGCAACUGAACUAGUCGUU 3253 R-008397153-000F 999 703 UUGGUUCACCAGUGGAUUC B UUGGUUCACCAGUGGAUUCTT B 3254 R-008397153-000F 999 703 UUGGUUCACCAGUGGAUUC GAAUCCACUGGUGAACCAAUU 3255 R-008397156-000G 1400 704 GUUCAGAACUGUCUUUGGA UCCAAAGACAGUUCUGAACUU 3257 R-008397156-000G 1400 704 GUUCAGAACUGUCUUUGGA B GUUCAGAACUGUCUUUGGATT B 3256 R-008397159-000H 3180 705 UGCUGUGAUACGAUGCUUC GAAGCAUCGUAUCACAGCAUU 3259 R-008397159-000H 3180 705 UGCUGUGAUACGAUGCUUC B UGCUGUGAUACGAUGCUUCTT B 3258 R-008397162-000P 2569 706 UCCAGGUGACAGCAAUCAG CUGAUUGCUGUCACCUGGAUU 3261 R-008397162-000P 2569 706 UCCAGGUGACAGCAAUCAG B UCCAGGUGACAGCAAUCAGTT B 3260 R-008397165-000R 787 707 UAUGGUCCAUCAGCUUUCU AGAAAGCUGAUGGACCAUAUU 3263 R-008397165-000R 787 707 UAUGGUCCAUCAGCUUUCU B UAUGGUCCAUCAGCUUUCUTT B 3262 R-008397168-000S 1861 708 UGCCAUUCCACGACUAGUU B UGCCAUUCCACGACUAGUUTT B 3264 R-008397168-000S 1861 708 UGCCAUUCCACGACUAGUU AACUAGUCGUGGAAUGGCAUU 3265 R-008397171-000Y 1190 709 AACCAAGAAAGCAAGCUCA UGAGCUUGCUUUCUUGGUUUU 3267 R-008397171-000Y 1190 709 AACCAAGAAAGCAAGCUCA B AACCAAGAAAGCAAGCUCATT B 3266 R-008397174-000Z 1557 710 AUAAUUAUAAGAACAAGAU AUCUUGUUCUUAUAAUUAUUU 3269 R-008397174-000Z 1557 710 AUAAUUAUAAGAACAAGAU B AUAAUUAUAAGAACAAGAUTT B 3268 R-008397177-000A 1751 711 GUUAAGCUCUUACACCCAC B GUUAAGCUCUUACACCCACTT B 3270 R-008397177-000A 1751 711 GUUAAGCUCUUACACCCAC GUGGGUGUAAGAGCUUAACUU 3271 R-008397180-000G 2897 712 UUGAGUAAUGGUGUAGAAC B UUGAGUAAUGGUGUAGAACTT B 3272 R-008397180-000G 2897 712 UUGAGUAAUGGUGUAGAAC GUUCUACACCAUUACUCAAUU 3273 R-008397183-000H 2217 713 GUGUGGCGACAUAUGCAGC GCUGCAUAUGUCGCCACACUU 3275 R-008397183-000H 2217 713 GUGUGGCGACAUAUGCAGC B GUGUGGCGACAUAUGCAGCTT B 3274 R-008397186-000J 2302 714 GACCAGCUCUCUCUUCAGA UCUGAAGAGAGAGCUGGUCUU 3277 R-008397186-000J 2302 714 GACCAGCUCUCUCUUCAGA B GACCAGCUCUCUCUUCAGATT B 3276 R-008397189-000K 1984 715 UUGUACCGGAGCCCUUCAC GUGAAGGGCUCCGGUACAAUU 3279 R-008397189-000K 1984 715 UUGUACCGGAGCCCUUCAC B UUGUACCGGAGCCCUUCACTT B 3278 R-008397192-000S 302 716 AUGGCCAUGGAACCAGACA B AUGGCCAUGGAACCAGACATT B 3280 R-008397192-000S 302 716 AUGGCCAUGGAACCAGACA UGUCUGGUUCCAUGGCCAUUU 3281 R-008397195-000T 2431 717 UGGUGGAUAUGGCCAGGAU B UGGUGGAUAUGGCCAGGAUTT B 3282 R-008397195-000T 2431 717 UGGUGGAUAUGGCCAGGAU AUCCUGGCCAUAUCCACCAUU 3283 R-008397198-000U 2183 718 CCUCUGACAGAGUUACUUC GAAGUAACUCUGUCAGAGGUU 3285 R-008397198-000U 2183 718 CCUCUGACAGAGUUACUUC B CCUCUGACAGAGUUACUUCTT B 3284 R-008397201-000L 2403 719 AUGAUCCUAGCUAUCGUUC GAACGAUAGCUAGGAUCAUUU 3287 R-008397201-000L 2403 719 AUGAUCCUAGCUAUCGUUC B AUGAUCCUAGCUAUCGUUCTT B 3286 R-008397204-000M 788 720 AUGGUCCAUCAGCUUUCUA B AUGGUCCAUCAGCUUUCUATT B 3288 R-008397204-000M 788 720 AUGGUCCAUCAGCUUUCUA UAGAAAGCUGAUGGACCAUUU 3289 R-008397207-000N 1476 721 GGACUCUUGUUCAGCUUCU B GGACUCUUGUUCAGCUUCUTT B 3290 R-008397207-000N 1476 721 GGACUCUUGUUCAGCUUCU AGAAGCUGAACAAGAGUCCUU 3291 R-008397210-000V 827 722 GCUAUCAUGCGUUCUCCUC B GCUAUCAUGCGUUCUCCUCTT B 3292 R-008397210-000V 827 722 GCUAUCAUGCGUUCUCCUC GAGGAGAACGCAUGAUAGCUU 3293 R-008397213-000W 2299 723 GCUGACCAGCUCUCUCUUC B GCUGACCAGCUCUCUCUUCTT B 3294 R-008397213-000W 2299 723 GCUGACCAGCUCUCUCUUC GAAGAGAGAGCUGGUCAGCUU 3295 R-008397216-000X 1891 724 UCGUGCACAUCAGGAUACC B UCGUGCACAUCAGGAUACCTT B 3296 R-008397216-000X 1891 724 UCGUGCACAUCAGGAUACC GGUAUCCUGAUGUGCACGAUU 3297 R-008397219-000Y 2196 725 UACUUCACUCUAGGAAUGA UCAUUCCUAGAGUGAAGUAUU 3299 R-008397219-000Y 2196 725 UACUUCACUCUAGGAAUGA B UACUUCACUCUAGGAAUGATT B 3298 R-008397222-000E 663 726 UGAAACAUGCAGUUGUAAA UUUACAACUGCAUGUUUCAUU 3301 R-008397222-000E 663 726 UGAAACAUGCAGUUGUAAA B UGAAACAUGCAGUUGUAAATT B 3300 R-008397225-000F 1028 727 UAUGCCAUUACAACUCUCC GGAGAGUUGUAAUGGCAUAUU 3303 R-008397225-000F 1028 727 UAUGCCAUUACAACUCUCC B UAUGCCAUUACAACUCUCCTT B 3302 R-008397228-000G 2032 728 UGUUAUCAGAGGACUAAAU AUUUAGUCCUCUGAUAACAUU 3305 R-008397228-000G 2032 728 UGUUAUCAGAGGACUAAAU B UGUUAUCAGAGGACUAAAUTT B 3304 R-008397231-000N 1459 729 GAUGGAAGGUCUCCUUGGG B GAUGGAAGGUCUCCUUGGGTT B 3306 R-008397231-000N 1459 729 GAUGGAAGGUCUCCUUGGG CCCAAGGAGACCUUCCAUCUU 3307 R-008397234-000P 2095 730 CAUCCAAAGAGUAGCUGCA UGCAGCUACUCUUUGGAUGUU 3309 R-008397234-000P 2095 730 CAUCCAAAGAGUAGCUGCA B CAUCCAAAGAGUAGCUGCATT B 3308 R-008397237-000R 1686 731 GCCGACACCAAGAAGCAGA B GCCGACACCAAGAAGCAGATT B 3310 R-008397237-000R 1686 731 GCCGACACCAAGAAGCAGA UCUGCUUCUUGGUGUCGGCUU 3311 R-008397240-000X 1412 732 CUUUGGACUCUCAGGAAUC B CUUUGGACUCUCAGGAAUCTT B 3312 R-008397240-000X 1412 732 CUUUGGACUCUCAGGAAUC GAUUCCUGAGAGUCCAAAGUU 3313 R-008397243-000Y 2473 733 GGAACAUGAGAUGGGUGGC GCCACCCAUCUCAUGUUCCUU 3315 R-008397243-000Y 2473 733 GGAACAUGAGAUGGGUGGC B GGAACAUGAGAUGGGUGGCTT B 3314 R-008397246-000Z 1080 734 UGGCAGUGCGUUUAGCUGG CCAGCUAAACGCACUGCCAUU 3317 R-008397246-000Z 1080 734 UGGCAGUGCGUUUAGCUGG B UGGCAGUGCGUUUAGCUGGTT B 3316 R-008397249-000A 2143 735 GGAAGCUGCAGAAGCUAUU AAUAGCUUCUGCAGCUUCCUU 3319 R-008397249-000A 2143 735 GGAAGCUGCAGAAGCUAUU B GGAAGCUGCAGAAGCUAUUTT B 3318 R-008397252-000G 2203 736 CUCUAGGAAUGAAGGUGUG B CUCUAGGAAUGAAGGUGUGTT B 3320 R-008397252-000G 2203 736 CUCUAGGAAUGAAGGUGUG CACACCUUCAUUCCUAGAGUU 3321 R-008397255-000H 548 737 GUACGAGCUGCUAUGUUCC B GUACGAGCUGCUAUGUUCCTT B 3322 R-008397255-000H 548 737 GUACGAGCUGCUAUGUUCC GGAACAUAGCAGCUCGUACUU 3323 R-008397258-000J 2050 45 UACCAUUCCAUUGUUUGUG CACAAACAAUGGAAUGGUAUU 3325 R-008397258-000J 2050 45 UACCAUUCCAUUGUUUGUG B UACCAUUCCAUUGUUUGUGTT B 3324 R-008397261-000R 1867 738 UCCACGACUAGUUCAGUUG B UCCACGACUAGUUCAGUUGTT B 3326 R-008397261-000R 1867 738 UCCACGACUAGUUCAGUUG CAACUGAACUAGUCGUGGAUU 3327 R-008397264-000S 842 739 CCUCAGAUGGUGUCUGCUA B CCUCAGAUGGUGUCUGCUATT B 3328 R-008397264-000S 842 739 CCUCAGAUGGUGUCUGCUA UAGCAGACACCAUCUGAGGUU 3329 R-008397267-000T 2120 740 CUCUGUGAACUUGCUCAGG CCUGAGCAAGUUCACAGAGUU 3331 R-008397267-000T 2120 740 CUCUGUGAACUUGCUCAGG B CUCUGUGAACUUGCUCAGGTT B 3330 R-008397270-000Z 782 741 GCAGUUAUGGUCCAUCAGC B GCAGUUAUGGUCCAUCAGCTT B 3332 R-008397270-000Z 782 741 GCAGUUAUGGUCCAUCAGC GCUGAUGGACCAUAACUGCUU 3333 R-008397273-000A 1758 742 UCUUACACCCACCAUCCCA UGGGAUGGUGGGUGUAAGAUU 3335 R-008397273-000A 1758 742 UCUUACACCCACCAUCCCA B UCUUACACCCACCAUCCCATT B 3334 R-008397276-000B 2396 743 CGCCAGGAUGAUCCUAGCU B CGCCAGGAUGAUCCUAGCUTT B 3336 R-008397276-000B 2396 743 CGCCAGGAUGAUCCUAGCU AGCUAGGAUCAUCCUGGCGUU 3337 R-008397279-000C 1373 744 CACCUGACAGAUCCAAGUC GACUUGGAUCUGUCAGGUGUU 3339 R-008397279-000C 1373 744 CACCUGACAGAUCCAAGUC B CACCUGACAGAUCCAAGUCTT B 3338 R-008397282-000J 1518 745 UCACCUGUGCAGCUGGAAU B UCACCUGUGCAGCUGGAAUTT B 3340 R-008397282-000J 1518 745 UCACCUGUGCAGCUGGAAU AUUCCAGCUGCACAGGUGAUU 3341 R-008397285-000K 2557 746 GGAUGGGCUGCCUCCAGGU ACCUGGAGGCAGCCCAUCCUU 3343 R-008397285-000K 2557 746 GGAUGGGCUGCCUCCAGGU B GGAUGGGCUGCCUCCAGGUTT B 3342 R-008397288-000L 1987 747 UACCGGAGCCCUUCACAUC B UACCGGAGCCCUUCACAUCTT B 3344 R-008397288-000L 1987 747 UACCGGAGCCCUUCACAUC GAUGUGAAGGGCUCCGGUAUU 3345 R-008397291-000T 568 748 UGAGACAUUAGAUGAGGGC GCCCUCAUCUAAUGUCUCAUU 3347 R-008397291-000T 568 748 UGAGACAUUAGAUGAGGGC B UGAGACAUUAGAUGAGGGCTT B 3346 R-008397294-000U 2201 749 CACUCUAGGAAUGAAGGUG B CACUCUAGGAAUGAAGGUGTT B 3348 R-008397294-000U 2201 749 CACUCUAGGAAUGAAGGUG CACCUUCAUUCCUAGAGUGUU 3349 R-008397297-000V 609 750 UUGAUGCUGCUCAUCCCAC GUGGGAUGAGCAGCAUCAAUU 3351 R-008397297-000V 609 750 UUGAUGCUGCUCAUCCCAC B UUGAUGCUGCUCAUCCCACTT B 3350 R-008397300-000M 400 751 UUCUCUGAGUGGUAAAGGC GCCUUUACCACUCAGAGAAUU 3353 R-008397300-000M 400 751 UUCUCUGAGUGGUAAAGGC B UUCUCUGAGUGGUAAAGGCTT B 3352 R-008397303-000N 331 752 UGUUAGUCACUGGCAGCAA UUGCUGCCAGUGACUAACAUU 3355 R-008397303-000N 331 752 UGUUAGUCACUGGCAGCAA B UGUUAGUCACUGGCAGCAATT B 3354 R-008397306-000P 1967 753 GAAGAAAUAGUUGAAGGUU AACCUUCAACUAUUUCUUCUU 3357 R-008397306-000P 1967 753 GAAGAAAUAGUUGAAGGUU B GAAGAAAUAGUUGAAGGUUTT B 3356 R-008397309-000R 2198 754 CUUCACUCUAGGAAUGAAG CUUCAUUCCUAGAGUGAAGUU 3359 R-008397309-000R 2198 754 CUUCACUCUAGGAAUGAAG B CUUCACUCUAGGAAUGAAGTT B 3358 R-008397312-000X 1493 755 CUGGGUUCAGAUGAUAUAA UUAUAUCAUCUGAACCCAGUU 3361 R-008397312-000X 1493 755 CUGGGUUCAGAUGAUAUAA B CUGGGUUCAGAUGAUAUAATT B 3360 R-008397315-000Y 2260 756 GGACAAGCCACAAGAUUAC GUAAUCUUGUGGCUUGUCCUU 3363 R-008397315-000Y 2260 756 GGACAAGCCACAAGAUUAC B GGACAAGCCACAAGAUUACTT B 3362 R-008397318-000Z 2496 757 ACCCUGGUGCUGACUAUCC B ACCCUGGUGCUGACUAUCCTT B 3364 R-008397318-000Z 2496 757 ACCCUGGUGCUGACUAUCC GGAUAGUCAGCACCAGGGUUU 3365 R-008397321-000F 2361 758 UUGAUAUUGGUGCCCAGGG B UUGAUAUUGGUGCCCAGGGTT B 3366 R-008397321-000F 2361 758 UUGAUAUUGGUGCCCAGGG CCCUGGGCACCAAUAUCAAUU 3367 R-008397324-000G 443 759 ACCUCCCAAGUCCUGUAUG CAUACAGGACUUGGGAGGUUU 3369 R-008397324-000G 443 759 ACCUCCCAAGUCCUGUAUG B ACCUCCCAAGUCCUGUAUGTT B 3368 R-008397327-000H 523 760 GUAUGCAAUGACUCGAGCU B GUAUGCAAUGACUCGAGCUTT B 3370 R-008397327-000H 523 760 GUAUGCAAUGACUCGAGCU AGCUCGAGUCAUUGCAUACUU 3371 R-008397330-000P 1742 761 CCAGUUGUGGUUAAGCUCU B CCAGUUGUGGUUAAGCUCUTT B 3372 R-008397330-000P 1742 761 CCAGUUGUGGUUAAGCUCU AGAGCUUAACCACAACUGGUU 3373 R-008397333-000R 530 762 AUGACUCGAGCUCAGAGGG B AUGACUCGAGCUCAGAGGGTT B 3374 R-008397333-000R 530 762 AUGACUCGAGCUCAGAGGG CCCUCUGAGCUCGAGUCAUUU 3375 R-008397336-000S 3169 763 UUGUUGUAACCUGCUGUGA B UUGUUGUAACCUGCUGUGATT B 3376 R-008397336-000S 3169 763 UUGUUGUAACCUGCUGUGA UCACAGCAGGUUACAACAAUU 3377 R-008397339-000T 1385 764 CCAAGUCAACGUCUUGUUC B CCAAGUCAACGUCUUGUUCTT B 3378 R-008397339-000T 1385 764 CCAAGUCAACGUCUUGUUC GAACAAGACGUUGACUUGGUU 3379 R-008397342-000Z 2123 131 UGUGAACUUGCUCAGGACA B UGUGAACUUGCUCAGGACATT B 3380 R-008397342-000Z 2123 131 UGUGAACUUGCUCAGGACA UGUCCUGAGCAAGUUCACAUU 3381 R-008397345-000A 2036 765 AUCAGAGGACUAAAUACCA B AUCAGAGGACUAAAUACCATT B 3382 R-008397345-000A 2036 765 AUCAGAGGACUAAAUACCA UGGUAUUUAGUCCUCUGAUUU 3383 R-008397348-000B 3088 766 UGUAUGGGUAGGGUAAAUC GAUUUACCCUACCCAUACAUU 3385 R-008397348-000B 3088 766 UGUAUGGGUAGGGUAAAUC B UGUAUGGGUAGGGUAAAUCTT B 3384 R-008397351-000H 2051 56 ACCAUUCCAUUGUUUGUGC GCACAAACAAUGGAAUGGUUU 3387 R-008397351-000H 2051 56 ACCAUUCCAUUGUUUGUGC B ACCAUUCCAUUGUUUGUGCTT B 3386 R-008397354-000J 288 170 UGAUGGAGUUGGACAUGGC GCCAUGUCCAACUCCAUCAUU 3389 R-008397354-000J 288 170 UGAUGGAGUUGGACAUGGC B UGAUGGAGUUGGACAUGGCTT B 3388 R-008397357-000K 1850 767 CGUGAGCAGGGUGCCAUUC B CGUGAGCAGGGUGCCAUUCTT B 3390 R-008397357-000K 1850 767 CGUGAGCAGGGUGCCAUUC GAAUGGCACCCUGCUCACGUU 3391 R-008397360-000S 2548 82 GGACCUCAUGGAUGGGCUG B GGACCUCAUGGAUGGGCUGTT B 3392 R-008397360-000S 2548 82 GGACCUCAUGGAUGGGCUG CAGCCCAUCCAUGAGGUCCUU 3393 R-008397363-000T 2518 768 UGAUGGGCUGCCAGAUCUG B UGAUGGGCUGCCAGAUCUGTT B 3394 R-008397363-000T 2518 768 UGAUGGGCUGCCAGAUCUG CAGAUCUGGCAGCCCAUCAUU 3395 R-008397366-000U 1886 769 CUUGUUCGUGCACAUCAGG B CUUGUUCGUGCACAUCAGGTT B 3396 R-008397366-000U 1886 769 CUUGUUCGUGCACAUCAGG CCUGAUGUGCACGAACAAGUU 3397 R-008397369-000V 650 770 CCAUCACAGAUGCUGAAAC GUUUCAGCAUCUGUGAUGGUU 3399 R-008397369-000V 650 770 CCAUCACAGAUGCUGAAAC B CCAUCACAGAUGCUGAAACTT B 3398 R-008397372-000B 3139 771 ACAGUUUACCAGUUGCCUU AAGGCAACUGGUAAACUGUUU 3401 R-008397372-000B 3139 771 ACAGUUUACCAGUUGCCUU B ACAGUUUACCAGUUGCCUUTT B 3400 R-008397375-000C 2025 772 ACCGAAUUGUUAUCAGAGG CCUCUGAUAACAAUUCGGUUU 3403 R-008397375-000C 2025 772 ACCGAAUUGUUAUCAGAGG B ACCGAAUUGUUAUCAGAGGTT B 3402 R-008397378-000D 1082 773 GCAGUGCGUUUAGCUGGUG CACCAGCUAAACGCACUGCUU 3405 R-008397378-000D 1082 773 GCAGUGCGUUUAGCUGGUG B GCAGUGCGUUUAGCUGGUGTT B 3404 R-008397381-000K 2475 774 AACAUGAGAUGGGUGGCCA UGGCCACCCAUCUCAUGUUUU 3407 R-008397381-000K 2475 774 AACAUGAGAUGGGUGGCCA B AACAUGAGAUGGGUGGCCATT B 3406 R-008397384-000L 1375 775 CCUGACAGAUCCAAGUCAA UUGACUUGGAUCUGUCAGGUU 3409 R-008397384-000L 1375 775 CCUGACAGAUCCAAGUCAA B CCUGACAGAUCCAAGUCAATT B 3408 R-008397387-000M 2013 776 GGGAUGUUCACAACCGAAU B GGGAUGUUCACAACCGAAUTT B 3410 R-008397387-000M 2013 776 GGGAUGUUCACAACCGAAU AUUCGGUUGUGAACAUCCCUU 3411 R-008397390-000U 1236 41 CUUUAGUAAAUAUAAUGAG CUCAUUAUAUUUACUAAAGUU 3413 R-008397390-000U 1236 41 CUUUAGUAAAUAUAAUGAG B CUUUAGUAAAUAUAAUGAGTT B 3412 R-008397393-000V 1653 128 AGCCUGCCAUCUGUGCUCU B AGCCUGCCAUCUGUGCUCUTT B 3414 R-008397393-000V 1653 128 AGCCUGCCAUCUGUGCUCU AGAGCACAGAUGGCAGGCUUU 3415 R-008397396-000W 1802 777 GGAUUGAUUCGAAAUCUUG B GGAUUGAUUCGAAAUCUUGTT B 3416 R-008397396-000W 1802 777 GGAUUGAUUCGAAAUCUUG CAAGAUUUCGAAUCAAUCCUU 3417 R-008397399-000X 2144 778 GAAGCUGCAGAAGCUAUUG CAAUAGCUUCUGCAGCUUCUU 3419 R-008397399-000X 2144 778 GAAGCUGCAGAAGCUAUUG B GAAGCUGCAGAAGCUAUUGTT B 3418 R-008397402-000P 529 779 AAUGACUCGAGCUCAGAGG B AAUGACUCGAGCUCAGAGGTT B 3420 R-008397402-000P 529 779 AAUGACUCGAGCUCAGAGG CCUCUGAGCUCGAGUCAUUUU 3421 R-008397405-000R 1482 780 UUGUUCAGCUUCUGGGUUC GAACCCAGAAGCUGAACAAUU 3423 R-008397405-000R 1482 780 UUGUUCAGCUUCUGGGUUC B UUGUUCAGCUUCUGGGUUCTT B 3422 R-008397408-000S 1546 781 CCUCACUUGCAAUAAUUAU B CCUCACUUGCAAUAAUUAUTT B 3424 R-008397408-000S 1546 781 CCUCACUUGCAAUAAUUAU AUAAUUAUUGCAAGUGAGGUU 3425 R-008397411-000Y 845 782 CAGAUGGUGUCUGCUAUUG CAAUAGCAGACACCAUCUGUU 3427 R-008397411-000Y 845 782 CAGAUGGUGUCUGCUAUUG B CAGAUGGUGUCUGCUAUUGTT B 3426 R-008397414-000Z 487 783 CUUCACUCAAGAACAAGUA B CUUCACUCAAGAACAAGUATT B 3428 R-008397414-000Z 487 783 CUUCACUCAAGAACAAGUA UACUUGUUCUUGAGUGAAGUU 3429 R-008397417-000A 652 784 AUCACAGAUGCUGAAACAU AUGUUUCAGCAUCUGUGAUUU 3431 R-008397417-000A 652 784 AUCACAGAUGCUGAAACAU B AUCACAGAUGCUGAAACAUTT B 3430 R-008397420-000G 1720 785 AGUUCGCCUUCACUAUGGA UCCAUAGUGAAGGCGAACUUU 3433 R-008397420-000G 1720 785 AGUUCGCCUUCACUAUGGA B AGUUCGCCUUCACUAUGGATT B 3432 R-008397423-000H 951 786 UACUGGCCAUCUUUAAGUC GACUUAAAGAUGGCCAGUAUU 3435 R-008397423-000H 951 786 UACUGGCCAUCUUUAAGUC B UACUGGCCAUCUUUAAGUCTT B 3434 R-008397426-000J 1232 787 CAAGCUUUAGUAAAUAUAA UUAUAUUUACUAAAGCUUGUU 3437 R-008397426-000J 1232 787 CAAGCUUUAGUAAAUAUAA B CAAGCUUUAGUAAAUAUAATT B 3436 R-008397429-000K 2269 28 ACAAGAUUACAAGAAACGG B ACAAGAUUACAAGAAACGGTT B 3438 R-008397429-000K 2269 28 ACAAGAUUACAAGAAACGG CCGUUUCUUGUAAUCUUGUUU 3439 R-008397432-000S 2265 788 AGCCACAAGAUUACAAGAA B AGCCACAAGAUUACAAGAATT B 3440 R-008397432-000S 2265 788 AGCCACAAGAUUACAAGAA UUCUUGUAAUCUUGUGGCUUU 3441 R-008397435-000T 1698 789 AAGCAGAGAUGGCCCAGAA B AAGCAGAGAUGGCCCAGAATT B 3442 R-008397435-000T 1698 789 AAGCAGAGAUGGCCCAGAA UUCUGGGCCAUCUCUGCUUUU 3443 R-008397438-000U 701 790 GAUGCAGAACUUGCCACAC GUGUGGCAAGUUCUGCAUCUU 3445 R-008397438-000U 701 790 GAUGCAGAACUUGCCACAC B GAUGCAGAACUUGCCACACTT B 3444 R-008397441-000A 1428 791 AUCUUUCAGAUGCUGCAAC GUUGCAGCAUCUGAAAGAUUU 3447 R-008397441-000A 1428 791 AUCUUUCAGAUGCUGCAAC B AUCUUUCAGAUGCUGCAACTT B 3446 R-008397444-000B 1930 792 UGGGACACAGCAGCAAUUU B UGGGACACAGCAGCAAUUUTT B 3448 R-008397444-000B 1930 792 UGGGACACAGCAGCAAUUU AAAUUGCUGCUGUGUCCCAUU 3449 R-008397447-000C 1379 793 ACAGAUCCAAGUCAACGUC GACGUUGACUUGGAUCUGUUU 3451 R-008397447-000C 1379 793 ACAGAUCCAAGUCAACGUC B ACAGAUCCAAGUCAACGUCTT B 3450 R-008397450-000J 1936 794 ACAGCAGCAAUUUGUGGAG B ACAGCAGCAAUUUGUGGAGTT B 3452 R-008397450-000J 1936 794 ACAGCAGCAAUUUGUGGAG CUCCACAAAUUGCUGCUGUUU 3453 R-008397453-000K 1441 795 UGCAACUAAACAGGAAGGG CCCUUCCUGUUUAGUUGCAUU 3455 R-008397453-000K 1441 795 UGCAACUAAACAGGAAGGG B UGCAACUAAACAGGAAGGGTT B 3454 R-008397456-000L 2132 796 GCUCAGGACAAGGAAGCUG CAGCUUCCUUGUCCUGAGCUU 3457 R-008397456-000L 2132 796 GCUCAGGACAAGGAAGCUG B GCUCAGGACAAGGAAGCUGTT B 3456 R-008397459-000M 2443 165 CCAGGAUGCCUUGGGUAUG B CCAGGAUGCCUUGGGUAUGTT B 3458 R-008397459-000M 2443 165 CCAGGAUGCCUUGGGUAUG CAUACCCAAGGCAUCCUGGUU 3459 R-008397462-000U 1800 163 UUGGAUUGAUUCGAAAUCU AGAUUUCGAAUCAAUCCAAUU 3461 R-008397462-000U 1800 163 UUGGAUUGAUUCGAAAUCU B UUGGAUUGAUUCGAAAUCUTT B 3460 R-008397465-000V 403 185 UCUGAGUGGUAAAGGCAAU AUUGCCUUUACCACUCAGAUU 3463 R-008397465-000V 403 185 UCUGAGUGGUAAAGGCAAU B UCUGAGUGGUAAAGGCAAUTT B 3462 R-008397468-000W 1007 105 CCAGUGGAUUCUGUGUUGU ACAACACAGAAUCCACUGGUU 3465 R-008397468-000W 1007 105 CCAGUGGAUUCUGUGUUGU B CCAGUGGAUUCUGUGUUGUTT B 3464 R-008397471-000C 1057 113 AUUACAUCAAGAAGGAGCU AGCUCCUUCUUGAUGUAAUUU 3467 R-008397471-000C 1057 113 AUUACAUCAAGAAGGAGCU B AUUACAUCAAGAAGGAGCUTT B 3466 R-008397474-000D 2267 87 CCACAAGAUUACAAGAAAC B CCACAAGAUUACAAGAAACTT B 3468 R-008397474-000D 2267 87 CCACAAGAUUACAAGAAAC GUUUCUUGUAAUCUUGUGGUU 3469 R-008397477-000E 1240 158 AGUAAAUAUAAUGAGGACC B AGUAAAUAUAAUGAGGACCTT B 3470 R-008397477-000E 1240 158 AGUAAAUAUAAUGAGGACC GGUCCUCAUUAUAUUUACUUU 3471 R-008397480-000L 2043 797 GACUAAAUACCAUUCCAUU AAUGGAAUGGUAUUUAGUCUU 3473 R-008397480-000L 2043 797 GACUAAAUACCAUUCCAUU B GACUAAAUACCAUUCCAUUTT B 3472 R-008397483-000M 608 798 UUUGAUGCUGCUCAUCCCA UGGGAUGAGCAGCAUCAAAUU 3475 R-008397483-000M 608 798 UUUGAUGCUGCUCAUCCCA B UUUGAUGCUGCUCAUCCCATT B 3474 R-008397486-000N 341 799 UGGCAGCAACAGUCUUACC B UGGCAGCAACAGUCUUACCTT B 3476 R-008397486-000N 341 799 UGGCAGCAACAGUCUUACC GGUAAGACUGUUGCUGCCAUU 3477 R-008397489-000P 1194 800 AAGAAAGCAAGCUCAUCAU B AAGAAAGCAAGCUCAUCAUTT B 3478 R-008397489-000P 1194 800 AAGAAAGCAAGCUCAUCAU AUGAUGAGCUUGCUUUCUUUU 3479 R-008397492-000W 2350 801 UGAUCUUGGACUUGAUAUU B UGAUCUUGGACUUGAUAUUTT B 3480 R-008397492-000W 2350 801 UGAUCUUGGACUUGAUAUU AAUAUCAAGUCCAAGAUCAUU 3481 R-008397495-000X 2948 802 CUGAAUAAAGUGUAACAAU B CUGAAUAAAGUGUAACAAUTT B 3482 R-008397495-000X 2948 802 CUGAAUAAAGUGUAACAAU AUUGUUACACUUUAUUCAGUU 3483 R-008397507-000T 2044 803 ACUAAAUACCAUUCCAUUG B ACUAAAUACCAUUCCAUUGTT B 3484 R-008397507-000T 2044 803 ACUAAAUACCAUUCCAUUG CAAUGGAAUGGUAUUUAGUUU 3485 R-008397510-000Z 621 804 AUCCCACUAAUGUCCAGCG CGCUGGACAUUAGUGGGAUUU 3487 R-008397510-000Z 621 804 AUCCCACUAAUGUCCAGCG B AUCCCACUAAUGUCCAGCGTT B 3486 R-008397513-000A 384 805 CCACUACCACAGCUCCUUC B CCACUACCACAGCUCCUUCTT B 3488 R-008397513-000A 384 805 CCACUACCACAGCUCCUUC GAAGGAGCUGUGGUAGUGGUU 3489 R-008397516-000B 1898 806 CAUCAGGAUACCCAGCGCC B CAUCAGGAUACCCAGCGCCTT B 3490 R-008397516-000B 1898 806 CAUCAGGAUACCCAGCGCC GGCGCUGGGUAUCCUGAUGUU 3491 R-008397519-000C 1795 15 UACUGUUGGAUUGAUUCGA UCGAAUCAAUCCAACAGUAUU 3493 R-008397519-000C 1795 15 UACUGUUGGAUUGAUUCGA B UACUGUUGGAUUGAUUCGATT B 3492 R-008397522-000J 653 807 UCACAGAUGCUGAAACAUG CAUGUUUCAGCAUCUGUGAUU 3495 R-008397522-000J 653 807 UCACAGAUGCUGAAACAUG B UCACAGAUGCUGAAACAUGTT B 3494 R-008397525-000K 1846 808 UUUGCGUGAGCAGGGUGCC GGCACCCUGCUCACGCAAAUU 3497 R-008397525-000K 1846 808 UUUGCGUGAGCAGGGUGCC B UUUGCGUGAGCAGGGUGCCTT B 3496 R-008397528-000L 2348 809 GCUGAUCUUGGACUUGAUA UAUCAAGUCCAAGAUCAGCUU 3499 R-008397528-000L 2348 809 GCUGAUCUUGGACUUGAUA B GCUGAUCUUGGACUUGAUATT B 3498 R-008397531-000T 1798 19 UGUUGGAUUGAUUCGAAAU AUUUCGAAUCAAUCCAACAUU 3501 R-008397531-000T 1798 19 UGUUGGAUUGAUUCGAAAU B UGUUGGAUUGAUUCGAAAUTT B 3500 R-008397534-000U 1150 810 GGCUAUUACGACAGACUGC B GGCUAUUACGACAGACUGCTT B 3502 R-008397534-000U 1150 810 GGCUAUUACGACAGACUGC GCAGUCUGUCGUAAUAGCCUU 3503 R-008397537-000V 1009 180 AGUGGAUUCUGUGUUGUUU AAACAACACAGAAUCCACUUU 3505 R-008397537-000V 1009 180 AGUGGAUUCUGUGUUGUUU B AGUGGAUUCUGUGUUGUUUTT B 3504 R-008397540-000B 654 178 CACAGAUGCUGAAACAUGC B CACAGAUGCUGAAACAUGCTT B 3506 R-008397540-000B 654 178 CACAGAUGCUGAAACAUGC GCAUGUUUCAGCAUCUGUGUU 3507 R-008397543-000C 298 811 GGACAUGGCCAUGGAACCA B GGACAUGGCCAUGGAACCATT B 3508 R-008397543-000C 298 811 GGACAUGGCCAUGGAACCA UGGUUCCAUGGCCAUGUCCUU 3509 R-008397546-000D 1568 812 AACAAGAUGAUGGUCUGCC B AACAAGAUGAUGGUCUGCCTT B 3510 R-008397546-000D 1568 812 AACAAGAUGAUGGUCUGCC GGCAGACCAUCAUCUUGUUUU 3511 R-008397549-000E 1058 813 UUACAUCAAGAAGGAGCUA B UUACAUCAAGAAGGAGCUATT B 3512 R-008397549-000E 1058 813 UUACAUCAAGAAGGAGCUA UAGCUCCUUCUUGAUGUAAUU 3513 R-008397552-000L 1835 814 AAUCAUGCACCUUUGCGUG B AAUCAUGCACCUUUGCGUGTT B 3514 R-008397552-000L 1835 814 AAUCAUGCACCUUUGCGUG CACGCAAAGGUGCAUGAUUUU 3515 R-008397555-000M 1832 815 GCAAAUCAUGCACCUUUGC B GCAAAUCAUGCACCUUUGCTT B 3516 R-008397555-000M 1832 815 GCAAAUCAUGCACCUUUGC GCAAAGGUGCAUGAUUUGCUU 3517 R-008397558-000N 2550 55 ACCUCAUGGAUGGGCUGCC GGCAGCCCAUCCAUGAGGUUU 3519 R-008397558-000N 2550 55 ACCUCAUGGAUGGGCUGCC B ACCUCAUGGAUGGGCUGCCTT B 3518 R-008397561-000V 406 816 GAGUGGUAAAGGCAAUCCU AGGAUUGCCUUUACCACUCUU 3521 R-008397561-000V 406 816 GAGUGGUAAAGGCAAUCCU B GAGUGGUAAAGGCAAUCCUTT B 3520 R-008397564-000W 1723 817 UCGCCUUCACUAUGGACUA B UCGCCUUCACUAUGGACUATT B 3522 R-008397564-000W 1723 817 UCGCCUUCACUAUGGACUA UAGUCCAUAGUGAAGGCGAUU 3523 R-008397567-000X 371 818 AUCCAUUCUGGUGCCACUA UAGUGGCACCAGAAUGGAUUU 3525 R-008397567-000X 371 818 AUCCAUUCUGGUGCCACUA B AUCCAUUCUGGUGCCACUATT B 3524 R-008397570-000D 1899 819 AUCAGGAUACCCAGCGCCG CGGCGCUGGGUAUCCUGAUUU 3527 R-008397570-000D 1899 819 AUCAGGAUACCCAGCGCCG B AUCAGGAUACCCAGCGCCGTT B 3526 R-008397573-000E 522 820 AGUAUGCAAUGACUCGAGC B AGUAUGCAAUGACUCGAGCTT B 3528 R-008397573-000E 522 820 AGUAUGCAAUGACUCGAGC GCUCGAGUCAUUGCAUACUUU 3529 R-008397576-000F 2285 821 CGGCUUUCAGUUGAGCUGA B CGGCUUUCAGUUGAGCUGATT B 3530 R-008397576-000F 2285 821 CGGCUUUCAGUUGAGCUGA UCAGCUCAACUGAAAGCCGUU 3531 R-008397579-000G 779 822 GCUGCAGUUAUGGUCCAUC GAUGGACCAUAACUGCAGCUU 3533 R-008397579-000G 779 822 GCUGCAGUUAUGGUCCAUC B GCUGCAGUUAUGGUCCAUCTT B 3532 R-008397582-000N 2896 823 AUUGAGUAAUGGUGUAGAA B AUUGAGUAAUGGUGUAGAATT B 3534 R-008397582-000N 2896 823 AUUGAGUAAUGGUGUAGAA UUCUACACCAUUACUCAAUUU 3535 R-008397588-000R 2943 824 GUAAUCUGAAUAAAGUGUA UACACUUUAUUCAGAUUACUU 3537 R-008397588-000R 2943 824 GUAAUCUGAAUAAAGUGUA B GUAAUCUGAAUAAAGUGUATT B 3536 R-008397591-000X 513 825 UUGAUGGACAGUAUGCAAU B UUGAUGGACAGUAUGCAAUTT B 3538 R-008397591-000X 513 825 UUGAUGGACAGUAUGCAAU AUUGCAUACUGUCCAUCAAUU 3539 R-008397594-000Y 3084 826 GAUAUGUAUGGGUAGGGUA B GAUAUGUAUGGGUAGGGUATT B 3540 R-008397594-000Y 3084 826 GAUAUGUAUGGGUAGGGUA UACCCUACCCAUACAUAUCUU 3541 R-008397597-000Z 1567 827 GAACAAGAUGAUGGUCUGC B GAACAAGAUGAUGGUCUGCTT B 3542 R-008397597-000Z 1567 827 GAACAAGAUGAUGGUCUGC GCAGACCAUCAUCUUGUUCUU 3543 R-008397600-000S 2034 828 UUAUCAGAGGACUAAAUAC B UUAUCAGAGGACUAAAUACTT B 3544 R-008397600-000S 2034 828 UUAUCAGAGGACUAAAUAC GUAUUUAGUCCUCUGAUAAUU 3545 R-008397603-000T 1003 829 UUCACCAGUGGAUUCUGUG B UUCACCAGUGGAUUCUGUGTT B 3546 R-008397603-000T 1003 829 UUCACCAGUGGAUUCUGUG CACAGAAUCCACUGGUGAAUU 3547 R-008397606-000U 1980 830 AAGGUUGUACCGGAGCCCU AGGGCUCCGGUACAACCUUUU 3549 R-008397606-000U 1980 830 AAGGUUGUACCGGAGCCCU B AAGGUUGUACCGGAGCCCUTT B 3548 R-008397609-000V 1340 831 GUAGAAGCUGGUGGAAUGC GCAUUCCACCAGCUUCUACUU 3551 R-008397609-000V 1340 831 GUAGAAGCUGGUGGAAUGC B GUAGAAGCUGGUGGAAUGCTT B 3550 R-008397612-000B 1437 832 AUGCUGCAACUAAACAGGA B AUGCUGCAACUAAACAGGATT B 3552 R-008397612-000B 1437 832 AUGCUGCAACUAAACAGGA UCCUGUUUAGUUGCAGCAUUU 3553 R-008397615-000C 2499 145 CUGGUGCUGACUAUCCAGU B CUGGUGCUGACUAUCCAGUTT B 3554 R-008397615-000C 2499 145 CUGGUGCUGACUAUCCAGU ACUGGAUAGUCAGCACCAGUU 3555 R-008397618-000D 785 64 GUUAUGGUCCAUCAGCUUU AAAGCUGAUGGACCAUAACUU 3557 R-008397618-000D 785 64 GUUAUGGUCCAUCAGCUUU B GUUAUGGUCCAUCAGCUUUTT B 3556 R-008397621-000K 2425 833 UCACUCUGGUGGAUAUGGC B UCACUCUGGUGGAUAUGGCTT B 3558 R-008397621-000K 2425 833 UCACUCUGGUGGAUAUGGC GCCAUAUCCACCAGAGUGAUU 3559 R-008397624-000L 282 834 CUGAUUUGAUGGAGUUGGA UCCAACUCCAUCAAAUCAGUU 3561 R-008397624-000L 282 834 CUGAUUUGAUGGAGUUGGA B CUGAUUUGAUGGAGUUGGATT B 3560 R-008397627-000M 1206 835 UCAUCAUACUGGCUAGUGG B UCAUCAUACUGGCUAGUGGTT B 3562 R-008397627-000M 1206 835 UCAUCAUACUGGCUAGUGG CCACUAGCCAGUAUGAUGAUU 3563 R-008397630-000U 1885 836 GCUUGUUCGUGCACAUCAG CUGAUGUGCACGAACAAGCUU 3565 R-008397630-000U 1885 836 GCUUGUUCGUGCACAUCAG B GCUUGUUCGUGCACAUCAGTT B 3564 R-008397633-000V 1314 837 UCUGCUCUAGUAAUAAGCC B UCUGCUCUAGUAAUAAGCCTT B 3566 R-008397633-000V 1314 837 UCUGCUCUAGUAAUAAGCC GGCUUAUUACUAGAGCAGAUU 3567 R-008397636-000W 2388 174 UUGGAUAUCGCCAGGAUGA B UUGGAUAUCGCCAGGAUGATT B 3568 R-008397636-000W 2388 174 UUGGAUAUCGCCAGGAUGA UCAUCCUGGCGAUAUCCAAUU 3569 R-008397639-000X 1308 838 UAUCUGUCUGCUCUAGUAA B UAUCUGUCUGCUCUAGUAATT B 3570 R-008397639-000X 1308 838 UAUCUGUCUGCUCUAGUAA UUACUAGAGCAGACAGAUAUU 3571 R-008397642-000D 1200 839 GCAAGCUCAUCAUACUGGC GCCAGUAUGAUGAGCUUGCUU 3573 R-008397642-000D 1200 839 GCAAGCUCAUCAUACUGGC B GCAAGCUCAUCAUACUGGCTT B 3572 R-008397645-000E 543 840 AGAGGGUACGAGCUGCUAU B AGAGGGUACGAGCUGCUAUTT B 3574 R-008397645-000E 543 840 AGAGGGUACGAGCUGCUAU AUAGCAGCUCGUACCCUCUUU 3575 R-008397648-000F 1609 841 UGUGCGUACUGUCCUUCGG B UGUGCGUACUGUCCUUCGGTT B 3576 R-008397648-000F 1609 841 UGUGCGUACUGUCCUUCGG CCGAAGGACAGUACGCACAUU 3577 R-008397651-000M 1453 842 GGAAGGGAUGGAAGGUCUC B GGAAGGGAUGGAAGGUCUCTT B 3578 R-008397651-000M 1453 842 GGAAGGGAUGGAAGGUCUC GAGACCUUCCAUCCCUUCCUU 3579 R-008397654-000N 2127 138 AACUUGCUCAGGACAAGGA B AACUUGCUCAGGACAAGGATT B 3580 R-008397654-000N 2127 138 AACUUGCUCAGGACAAGGA UCCUUGUCCUGAGCAAGUUUU 3581 R-008397657-000P 833 843 AUGCGUUCUCCUCAGAUGG B AUGCGUUCUCCUCAGAUGGTT B 3582 R-008397657-000P 833 843 AUGCGUUCUCCUCAGAUGG CCAUCUGAGGAGAACGCAUUU 3583 R-008397660-000W 2188 844 GACAGAGUUACUUCACUCU B GACAGAGUUACUUCACUCUTT B 3584 R-008397660-000W 2188 844 GACAGAGUUACUUCACUCU AGAGUGAAGUAACUCUGUCUU 3585 R-008397663-000X 1148 845 UUGGCUAUUACGACAGACU B UUGGCUAUUACGACAGACUTT B 3586 R-008397663-000X 1148 845 UUGGCUAUUACGACAGACU AGUCUGUCGUAAUAGCCAAUU 3587 R-008397666-000Y 1736 846 GGACUACCAGUUGUGGUUA B GGACUACCAGUUGUGGUUATT B 3588 R-008397666-000Y 1736 846 GGACUACCAGUUGUGGUUA UAACCACAACUGGUAGUCCUU 3589 R-008397669-000Z 1401 847 UUCAGAACUGUCUUUGGAC GUCCAAAGACAGUUCUGAAUU 3591 R-008397669-000Z 1401 847 UUCAGAACUGUCUUUGGAC B UUCAGAACUGUCUUUGGACTT B 3590 R-008397672-000F 1677 848 AUCUGACCAGCCGACACCA UGGUGUCGGCUGGUCAGAUUU 3593 R-008397672-000F 1677 848 AUCUGACCAGCCGACACCA B AUCUGACCAGCCGACACCATT B 3592 R-008397675-000G 1934 849 ACACAGCAGCAAUUUGUGG B ACACAGCAGCAAUUUGUGGTT B 3594 R-008397675-000G 1934 849 ACACAGCAGCAAUUUGUGG CCACAAAUUGCUGCUGUGUUU 3595 R-008397678-000H 388 850 UACCACAGCUCCUUCUCUG CAGAGAAGGAGCUGUGGUAUU 3597 R-008397678-000H 388 850 UACCACAGCUCCUUCUCUG B UACCACAGCUCCUUCUCUGTT B 3596 R-008397681-000P 1920 851 CGUCCAUGGGUGGGACACA B CGUCCAUGGGUGGGACACATT B 3598 R-008397681-000P 1920 851 CGUCCAUGGGUGGGACACA UGUGUCCCACCCAUGGACGUU 3599 R-008397684-000R 1747 852 UGUGGUUAAGCUCUUACAC GUGUAAGAGCUUAACCACAUU 3601 R-008397684-000R 1747 852 UGUGGUUAAGCUCUUACAC B UGUGGUUAAGCUCUUACACTT B 3600 R-008397687-000S 861 853 UUGUACGUACCAUGCAGAA B UUGUACGUACCAUGCAGAATT B 3602 R-008397687-000S 861 853 UUGUACGUACCAUGCAGAA UUCUGCAUGGUACGUACAAUU 3603 R-008397690-000Y 1904 854 GAUACCCAGCGCCGUACGU B GAUACCCAGCGCCGUACGUTT B 3604 R-008397690-000Y 1904 854 GAUACCCAGCGCCGUACGU ACGUACGGCGCUGGGUAUCUU 3605 R-008397693-000Z 831 855 UCAUGCGUUCUCCUCAGAU B UCAUGCGUUCUCCUCAGAUTT B 3606 R-008397693-000Z 831 855 UCAUGCGUUCUCCUCAGAU AUCUGAGGAGAACGCAUGAUU 3607 R-008397696-000A 1895 856 GCACAUCAGGAUACCCAGC GCUGGGUAUCCUGAUGUGCUU 3609 R-008397696-000A 1895 856 GCACAUCAGGAUACCCAGC B GCACAUCAGGAUACCCAGCTT B 3608 R-008397699-000B 2273 857 GAUUACAAGAAACGGCUUU AAAGCCGUUUCUUGUAAUCUU 3611 R-008397699-000B 2273 857 GAUUACAAGAAACGGCUUU B GAUUACAAGAAACGGCUUUTT B 3610 R-008397702-000U 1738 858 ACUACCAGUUGUGGUUAAG B ACUACCAGUUGUGGUUAAGTT B 3612 R-008397702-000U 1738 858 ACUACCAGUUGUGGUUAAG CUUAACCACAACUGGUAGUUU 3613 R-008397705-000V 1395 859 GUCUUGUUCAGAACUGUCU B GUCUUGUUCAGAACUGUCUTT B 3614 R-008397705-000V 1395 859 GUCUUGUUCAGAACUGUCU AGACAGUUCUGAACAAGACUU 3615 R-008397708-000W 1675 860 UCAUCUGACCAGCCGACAC B UCAUCUGACCAGCCGACACTT B 3616 R-008397708-000W 1675 860 UCAUCUGACCAGCCGACAC GUGUCGGCUGGUCAGAUGAUU 3617 R-008397711-000C 1845 861 CUUUGCGUGAGCAGGGUGC B CUUUGCGUGAGCAGGGUGCTT B 3618 R-008397711-000C 1845 861 CUUUGCGUGAGCAGGGUGC GCACCCUGCUCACGCAAAGUU 3619 R-008397714-000D 1408 862 CUGUCUUUGGACUCUCAGG CCUGAGAGUCCAAAGACAGUU 3621 R-008397714-000D 1408 862 CUGUCUUUGGACUCUCAGG B CUGUCUUUGGACUCUCAGGTT B 3620 R-008397717-000E 1059 863 UACAUCAAGAAGGAGCUAA B UACAUCAAGAAGGAGCUAATT B 3622 R-008397717-000E 1059 863 UACAUCAAGAAGGAGCUAA UUAGCUCCUUCUUGAUGUAUU 3623 R-008397720-000L 1381 864 AGAUCCAAGUCAACGUCUU AAGACGUUGACUUGGAUCUUU 3625 R-008397720-000L 1381 864 AGAUCCAAGUCAACGUCUU B AGAUCCAAGUCAACGUCUUTT B 3624 R-008397723-000M 1386 865 CAAGUCAACGUCUUGUUCA B CAAGUCAACGUCUUGUUCATT B 3626 R-008397723-000M 1386 865 CAAGUCAACGUCUUGUUCA UGAACAAGACGUUGACUUGUU 3627 R-008397726-000N 1470 866 UCCUUGGGACUCUUGUUCA UGAACAAGAGUCCCAAGGAUU 3629 R-008397726-000N 1470 866 UCCUUGGGACUCUUGUUCA B UCCUUGGGACUCUUGUUCATT B 3628 R-008397729-000P 1349 867 GGUGGAAUGCAAGCUUUAG CUAAAGCUUGCAUUCCACCUU 3631 R-008397729-000P 1349 867 GGUGGAAUGCAAGCUUUAG B GGUGGAAUGCAAGCUUUAGTT B 3630 R-008397732-000W 1440 868 CUGCAACUAAACAGGAAGG CCUUCCUGUUUAGUUGCAGUU 3633 R-008397732-000W 1440 868 CUGCAACUAAACAGGAAGG B CUGCAACUAAACAGGAAGGTT B 3632 R-008397735-000X 1364 869 UUAGGACUUCACCUGACAG CUGUCAGGUGAAGUCCUAAUU 3635 R-008397735-000X 1364 869 UUAGGACUUCACCUGACAG B UUAGGACUUCACCUGACAGTT B 3634 R-008397738-000Y 502 870 AGUAGCUGAUAUUGAUGGA B AGUAGCUGAUAUUGAUGGATT B 3636 R-008397738-000Y 502 870 AGUAGCUGAUAUUGAUGGA UCCAUCAAUAUCAGCUACUUU 3637 R-008397741-000E 1246 871 UAUAAUGAGGACCUAUACU AGUAUAGGUCCUCAUUAUAUU 3639 R-008397741-000E 1246 871 UAUAAUGAGGACCUAUACU B UAUAAUGAGGACCUAUACUTT B 3638 R-008397744-000F 3178 872 CCUGCUGUGAUACGAUGCU AGCAUCGUAUCACAGCAGGUU 3641 R-008397744-000F 3178 872 CCUGCUGUGAUACGAUGCU B CCUGCUGUGAUACGAUGCUTT B 3640 R-008397747-000G 2483 873 AUGGGUGGCCACCACCCUG B AUGGGUGGCCACCACCCUGTT B 3642 R-008397747-000G 2483 873 AUGGGUGGCCACCACCCUG CAGGGUGGUGGCCACCCAUUU 3643 R-008397750-000N 1417 874 GACUCUCAGGAAUCUUUCA B GACUCUCAGGAAUCUUUCATT B 3644 R-008397750-000N 1417 874 GACUCUCAGGAAUCUUUCA UGAAAGAUUCCUGAGAGUCUU 3645 R-008397753-000P 1893 875 GUGCACAUCAGGAUACCCA B GUGCACAUCAGGAUACCCATT B 3646 R-008397753-000P 1893 875 GUGCACAUCAGGAUACCCA UGGGUAUCCUGAUGUGCACUU 3647 R-008397756-000R 817 876 UUCCAGACACGCUAUCAUG CAUGAUAGCGUGUCUGGAAUU 3649 R-008397756-000R 817 876 UUCCAGACACGCUAUCAUG B UUCCAGACACGCUAUCAUGTT B 3648 R-008397759-000S 711 877 UUGCCACACGUGCAAUCCC GGGAUUGCACGUGUGGCAAUU 3651 R-008397759-000S 711 877 UUGCCACACGUGCAAUCCC B UUGCCACACGUGCAAUCCCTT B 3650 R-008397762-000Y 1433 878 UCAGAUGCUGCAACUAAAC GUUUAGUUGCAGCAUCUGAUU 3653 R-008397762-000Y 1433 878 UCAGAUGCUGCAACUAAAC B UCAGAUGCUGCAACUAAACTT B 3652 R-008397765-000Z 1362 879 CUUUAGGACUUCACCUGAC GUCAGGUGAAGUCCUAAAGUU 3655 R-008397765-000Z 1362 879 CUUUAGGACUUCACCUGAC B CUUUAGGACUUCACCUGACTT B 3654 R-008397768-000A 1838 880 CAUGCACCUUUGCGUGAGC B CAUGCACCUUUGCGUGAGCTT B 3656 R-008397768-000A 1838 880 CAUGCACCUUUGCGUGAGC GCUCACGCAAAGGUGCAUGUU 3657 R-008397771-000G 1037 881 ACAACUCUCCACAACCUUU AAAGGUUGUGGAGAGUUGUUU 3659 R-008397771-000G 1037 881 ACAACUCUCCACAACCUUU B ACAACUCUCCACAACCUUUTT B 3658 R-008397774-000H 1474 882 UGGGACUCUUGUUCAGCUU B UGGGACUCUUGUUCAGCUUTT B 3660 R-008397774-000H 1474 882 UGGGACUCUUGUUCAGCUU AAGCUGAACAAGAGUCCCAUU 3661 R-008397777-000J 997 883 GCUUGGUUCACCAGUGGAU B GCUUGGUUCACCAGUGGAUTT B 3662 R-008397777-000J 997 883 GCUUGGUUCACCAGUGGAU AUCCACUGGUGAACCAAGCUU 3663 R-008397780-000R 931 884 UUCCCAUCAUCGUGAGGGC B UUCCCAUCAUCGUGAGGGCTT B 3664 R-008397780-000R 931 884 UUCCCAUCAUCGUGAGGGC GCCCUCACGAUGAUGGGAAUU 3665 R-008397783-000S 1313 885 GUCUGCUCUAGUAAUAAGC GCUUAUUACUAGAGCAGACUU 3667 R-008397783-000S 1313 885 GUCUGCUCUAGUAAUAAGC B GUCUGCUCUAGUAAUAAGCTT B 3666 R-008397786-000T 1487 886 CAGCUUCUGGGUUCAGAUG B CAGCUUCUGGGUUCAGAUGTT B 3668 R-008397786-000T 1487 886 CAGCUUCUGGGUUCAGAUG CAUCUGAACCCAGAAGCUGUU 3669 R-008397789-000U 1673 887 CGUCAUCUGACCAGCCGAC B CGUCAUCUGACCAGCCGACTT B 3670 R-008397789-000U 1673 887 CGUCAUCUGACCAGCCGAC GUCGGCUGGUCAGAUGACGUU 3671 R-008397792-000A 561 888 UGUUCCCUGAGACAUUAGA UCUAAUGUCUCAGGGAACAUU 3673 R-008397792-000A 561 888 UGUUCCCUGAGACAUUAGA B UGUUCCCUGAGACAUUAGATT B 3672 R-008397795-000B 1188 889 GCAACCAAGAAAGCAAGCU B GCAACCAAGAAAGCAAGCUTT B 3674 R-008397795-000B 1188 889 GCAACCAAGAAAGCAAGCU AGCUUGCUUUCUUGGUUGCUU 3675 R-008397798-000C 292 890 GGAGUUGGACAUGGCCAUG B GGAGUUGGACAUGGCCAUGTT B 3676 R-008397798-000C 292 890 GGAGUUGGACAUGGCCAUG CAUGGCCAUGUCCAACUCCUU 3677 R-008397801-000V 1958 891 GUCCGCAUGGAAGAAAUAG B GUCCGCAUGGAAGAAAUAGTT B 3678 R-008397801-000V 1958 891 GUCCGCAUGGAAGAAAUAG CUAUUUCUUCCAUGCGGACUU 3679 R-008397804-000W 2349 892 CUGAUCUUGGACUUGAUAU B CUGAUCUUGGACUUGAUAUTT B 3680 R-008397804-000W 2349 892 CUGAUCUUGGACUUGAUAU AUAUCAAGUCCAAGAUCAGUU 3681 R-008397807-000X 1460 893 AUGGAAGGUCUCCUUGGGA UCCCAAGGAGACCUUCCAUUU 3683 R-008397807-000X 1460 893 AUGGAAGGUCUCCUUGGGA B AUGGAAGGUCUCCUUGGGATT B 3682 R-008397810-000D 1576 894 GAUGGUCUGCCAAGUGGGU B GAUGGUCUGCCAAGUGGGUTT B 3684 R-008397810-000D 1576 894 GAUGGUCUGCCAAGUGGGU ACCCACUUGGCAGACCAUCUU 3685 R-008397813-000E 536 4 CGAGCUCAGAGGGUACGAG B CGAGCUCAGAGGGUACGAGTT B 3686 R-008397813-000E 536 4 CGAGCUCAGAGGGUACGAG CUCGUACCCUCUGAGCUCGUU 3687 R-008397816-000F 690 895 ACUAUCAAGAUGAUGCAGA UCUGCAUCAUCUUGAUAGUUU 3689 R-008397816-000F 690 895 ACUAUCAAGAUGAUGCAGA B ACUAUCAAGAUGAUGCAGATT B 3688 R-008397819-000G 655 896 ACAGAUGCUGAAACAUGCA B ACAGAUGCUGAAACAUGCATT B 3690 R-008397819-000G 655 896 ACAGAUGCUGAAACAUGCA UGCAUGUUUCAGCAUCUGUUU 3691 R-008397822-000N 2290 897 UUCAGUUGAGCUGACCAGC GCUGGUCAGCUCAACUGAAUU 3693 R-008397822-000N 2290 897 UUCAGUUGAGCUGACCAGC B UUCAGUUGAGCUGACCAGCTT B 3692 R-008397825-000P 1600 898 AGAGGCUCUUGUGCGUACU B AGAGGCUCUUGUGCGUACUTT B 3694 R-008397825-000P 1600 898 AGAGGCUCUUGUGCGUACU AGUACGCACAAGAGCCUCUUU 3695 R-008397828-000R 2432 899 GGUGGAUAUGGCCAGGAUG CAUCCUGGCCAUAUCCACCUU 3697 R-008397828-000R 2432 899 GGUGGAUAUGGCCAGGAUG B GGUGGAUAUGGCCAGGAUGTT B 3696 R-008397831-000X 710 900 CUUGCCACACGUGCAAUCC B CUUGCCACACGUGCAAUCCTT B 3698 R-008397831-000X 710 900 CUUGCCACACGUGCAAUCC GGAUUGCACGUGUGGCAAGUU 3699 R-008397834-000Y 1714 901 GAAUGCAGUUCGCCUUCAC B GAAUGCAGUUCGCCUUCACTT B 3700 R-008397834-000Y 1714 901 GAAUGCAGUUCGCCUUCAC GUGAAGGCGAACUGCAUUCUU 3701 R-008397837-000Z 2005 902 CCUAGCUCGGGAUGUUCAC B CCUAGCUCGGGAUGUUCACTT B 3702 R-008397837-000Z 2005 902 CCUAGCUCGGGAUGUUCAC GUGAACAUCCCGAGCUAGGUU 3703 R-008397840-000F 1728 903 UUCACUAUGGACUACCAGU B UUCACUAUGGACUACCAGUTT B 3704 R-008397840-000F 1728 903 UUCACUAUGGACUACCAGU ACUGGUAGUCCAUAGUGAAUU 3705 R-008397843-000G 2482 904 GAUGGGUGGCCACCACCCU AGGGUGGUGGCCACCCAUCUU 3707 R-008397843-000G 2482 904 GAUGGGUGGCCACCACCCU B GAUGGGUGGCCACCACCCUTT B 3706 R-008397846-000H 768 905 UGGUUAAUAAGGCUGCAGU B UGGUUAAUAAGGCUGCAGUTT B 3708 R-008397846-000H 768 905 UGGUUAAUAAGGCUGCAGU ACUGCAGCCUUAUUAACCAUU 3709 R-008397849-000J 693 906 AUCAAGAUGAUGCAGAACU B AUCAAGAUGAUGCAGAACUTT B 3710 R-008397849-000J 693 906 AUCAAGAUGAUGCAGAACU AGUUCUGCAUCAUCUUGAUUU 3711 R-008397852-000R 3179 907 CUGCUGUGAUACGAUGCUU B CUGCUGUGAUACGAUGCUUTT B 3712 R-008397852-000R 3179 907 CUGCUGUGAUACGAUGCUU AAGCAUCGUAUCACAGCAGUU 3713 R-008397855-000S 1549 89 CACUUGCAAUAAUUAUAAG CUUAUAAUUAUUGCAAGUGUU 3715 R-008397855-000S 1549 89 CACUUGCAAUAAUUAUAAG B CACUUGCAAUAAUUAUAAGTT B 3714 R-008397858-000T 1792 167 GGCUACUGUUGGAUUGAUU AAUCAAUCCAACAGUAGCCUU 3717 R-008397858-000T 1792 167 GGCUACUGUUGGAUUGAUU B GGCUACUGUUGGAUUGAUUTT B 3716 R-008397861-000Z 2448 908 AUGCCUUGGGUAUGGACCC GGGUCCAUACCCAAGGCAUUU 3719 R-008397861-000Z 2448 908 AUGCCUUGGGUAUGGACCC B AUGCCUUGGGUAUGGACCCTT B 3718 R-008397864-000A 3183 909 UGUGAUACGAUGCUUCAAG B UGUGAUACGAUGCUUCAAGTT B 3720 R-008397864-000A 3183 909 UGUGAUACGAUGCUUCAAG CUUGAAGCAUCGUAUCACAUU 3721 R-008397867-000B 1293 910 GAGUGCUGAAGGUGCUAUC GAUAGCACCUUCAGCACUCUU 3723 R-008397867-000B 1293 910 GAGUGCUGAAGGUGCUAUC B GAGUGCUGAAGGUGCUAUCTT B 3722 R-008397870-000H 544 911 GAGGGUACGAGCUGCUAUG CAUAGCAGCUCGUACCCUCUU 3725 R-008397870-000H 544 911 GAGGGUACGAGCUGCUAUG B GAGGGUACGAGCUGCUAUGTT B 3724 R-008397873-000J 1676 26 CAUCUGACCAGCCGACACC GGUGUCGGCUGGUCAGAUGUU 3727 R-008397873-000J 1676 26 CAUCUGACCAGCCGACACC B CAUCUGACCAGCCGACACCTT B 3726 R-008397876-000K 2937 912 UUAAUUGUAAUCUGAAUAA B UUAAUUGUAAUCUGAAUAATT B 3728 R-008397876-000K 2937 912 UUAAUUGUAAUCUGAAUAA UUAUUCAGAUUACAAUUAAUU 3729 R-008397879-000L 1691 913 CACCAAGAAGCAGAGAUGG CCAUCUCUGCUUCUUGGUGUU 3731 R-008397879-000L 1691 913 CACCAAGAAGCAGAGAUGG B CACCAAGAAGCAGAGAUGGTT B 3730 R-008397882-000T 2195 120 UUACUUCACUCUAGGAAUG B UUACUUCACUCUAGGAAUGTT B 3732 R-008397882-000T 2195 120 UUACUUCACUCUAGGAAUG CAUUCCUAGAGUGAAGUAAUU 3733 R-008397885-000U 1356 186 UGCAAGCUUUAGGACUUCA B UGCAAGCUUUAGGACUUCATT B 3734 R-008397885-000U 1356 186 UGCAAGCUUUAGGACUUCA UGAAGUCCUAAAGCUUGCAUU 3735 R-008397888-000V 557 184 GCUAUGUUCCCUGAGACAU AUGUCUCAGGGAACAUAGCUU 3737 R-008397888-000V 557 184 GCUAUGUUCCCUGAGACAU B GCUAUGUUCCCUGAGACAUTT B 3736 R-008397897-000D 1353 914 GAAUGCAAGCUUUAGGACU AGUCCUAAAGCUUGCAUUCUU 3739 R-008397897-000D 1353 914 GAAUGCAAGCUUUAGGACU B GAAUGCAAGCUUUAGGACUTT B 3738 R-008397900-000W 1843 915 ACCUUUGCGUGAGCAGGGU B ACCUUUGCGUGAGCAGGGUTT B 3740 R-008397900-000W 1843 915 ACCUUUGCGUGAGCAGGGU ACCCUGCUCACGCAAAGGUUU 3741 R-008397903-000X 1302 916 AGGUGCUAUCUGUCUGCUC B AGGUGCUAUCUGUCUGCUCTT B 3742 R-008397903-000X 1302 916 AGGUGCUAUCUGUCUGCUC GAGCAGACAGAUAGCACCUUU 3743 R-008397906-000Y 2130 917 UUGCUCAGGACAAGGAAGC B UUGCUCAGGACAAGGAAGCTT B 3744 R-008397906-000Y 2130 917 UUGCUCAGGACAAGGAAGC GCUUCCUUGUCCUGAGCAAUU 3745 R-008397909-000Z 2165 918 GCUGAGGGAGCCACAGCUC B GCUGAGGGAGCCACAGCUCTT B 3746 R-008397909-000Z 2165 918 GCUGAGGGAGCCACAGCUC GAGCUGUGGCUCCCUCAGCUU 3747 R-008397912-000F 387 919 CUACCACAGCUCCUUCUCU B CUACCACAGCUCCUUCUCUTT B 3748 R-008397912-000F 387 919 CUACCACAGCUCCUUCUCU AGAGAAGGAGCUGUGGUAGUU 3749 R-008397915-000G 2472 920 UGGAACAUGAGAUGGGUGG CCACCCAUCUCAUGUUCCAUU 3751 R-008397915-000G 2472 920 UGGAACAUGAGAUGGGUGG B UGGAACAUGAGAUGGGUGGTT B 3750 R-008397918-000H 857 921 GCUAUUGUACGUACCAUGC B GCUAUUGUACGUACCAUGCTT B 3752 R-008397918-000H 857 921 GCUAUUGUACGUACCAUGC GCAUGGUACGUACAAUAGCUU 3753 R-008397921-000P 1816 922 UCUUGCCCUUUGUCCCGCA UGCGGGACAAAGGGCAAGAUU 3755 R-008397921-000P 1816 922 UCUUGCCCUUUGUCCCGCA B UCUUGCCCUUUGUCCCGCATT B 3754 R-008397924-000R 1561 923 UUAUAAGAACAAGAUGAUG CAUCAUCUUGUUCUUAUAAUU 3757 R-008397924-000R 1561 923 UUAUAAGAACAAGAUGAUG B UUAUAAGAACAAGAUGAUGTT B 3756 R-008397927-000S 811 924 GGAAGCUUCCAGACACGCU B GGAAGCUUCCAGACACGCUTT B 3758 R-008397927-000S 811 924 GGAAGCUUCCAGACACGCU AGCGUGUCUGGAAGCUUCCUU 3759 R-008397930-000Y 1327 925 UAAGCCGGCUAUUGUAGAA B UAAGCCGGCUAUUGUAGAATT B 3760 R-008397930-000Y 1327 925 UAAGCCGGCUAUUGUAGAA UUCUACAAUAGCCGGCUUAUU 3761 R-008397933-000Z 757 926 GGACCAGGUGGUGGUUAAU B GGACCAGGUGGUGGUUAAUTT B 3762 R-008397933-000Z 757 926 GGACCAGGUGGUGGUUAAU AUUAACCACCACCUGGUCCUU 3763 R-008397936-000A 507 927 CUGAUAUUGAUGGACAGUA B CUGAUAUUGAUGGACAGUATT B 3764 R-008397936-000A 507 927 CUGAUAUUGAUGGACAGUA UACUGUCCAUCAAUAUCAGUU 3765 R-008397939-000B 3092 928 UGGGUAGGGUAAAUCAGUA B UGGGUAGGGUAAAUCAGUATT B 3766 R-008397939-000B 3092 928 UGGGUAGGGUAAAUCAGUA UACUGAUUUACCCUACCCAUU 3767 R-008397942-000H 2359 929 ACUUGAUAUUGGUGCCCAG B ACUUGAUAUUGGUGCCCAGTT B 3768 R-008397942-000H 2359 929 ACUUGAUAUUGGUGCCCAG CUGGGCACCAAUAUCAAGUUU 3769 R-008397945-000J 1753 930 UAAGCUCUUACACCCACCA B UAAGCUCUUACACCCACCATT B 3770 R-008397945-000J 1753 930 UAAGCUCUUACACCCACCA UGGUGGGUGUAAGAGCUUAUU 3771 R-008397948-000K 273 931 CUACUCAAGCUGAUUUGAU AUCAAAUCAGCUUGAGUAGUU 3773 R-008397948-000K 273 931 CUACUCAAGCUGAUUUGAU B CUACUCAAGCUGAUUUGAUTT B 3772 R-008397951-000S 1859 932 GGUGCCAUUCCACGACUAG CUAGUCGUGGAAUGGCACCUU 3775 R-008397951-000S 1859 932 GGUGCCAUUCCACGACUAG B GGUGCCAUUCCACGACUAGTT B 3774 R-008397954-000T 296 933 UUGGACAUGGCCAUGGAAC B UUGGACAUGGCCAUGGAACTT B 3776 R-008397954-000T 296 933 UUGGACAUGGCCAUGGAAC GUUCCAUGGCCAUGUCCAAUU 3777 R-008397957-000U 615 934 CUGCUCAUCCCACUAAUGU ACAUUAGUGGGAUGAGCAGUU 3779 R-008397957-000U 615 934 CUGCUCAUCCCACUAAUGU B CUGCUCAUCCCACUAAUGUTT B 3778 R-008397960-000A 301 935 CAUGGCCAUGGAACCAGAC GUCUGGUUCCAUGGCCAUGUU 3781 R-008397960-000A 301 935 CAUGGCCAUGGAACCAGAC B CAUGGCCAUGGAACCAGACTT B 3780 R-008397963-000B 1184 936 UAUGGCAACCAAGAAAGCA B UAUGGCAACCAAGAAAGCATT B 3782 R-008397963-000B 1184 936 UAUGGCAACCAAGAAAGCA UGCUUUCUUGGUUGCCAUAUU 3783 R-008397966-000C 1006 937 ACCAGUGGAUUCUGUGUUG B ACCAGUGGAUUCUGUGUUGTT B 3784 R-008397966-000C 1006 937 ACCAGUGGAUUCUGUGUUG CAACACAGAAUCCACUGGUUU 3785 R-008397969-000D 2189 938 ACAGAGUUACUUCACUCUA B ACAGAGUUACUUCACUCUATT B 3786 R-008397969-000D 2189 938 ACAGAGUUACUUCACUCUA UAGAGUGAAGUAACUCUGUUU 3787 R-008397972-000K 1365 939 UAGGACUUCACCUGACAGA UCUGUCAGGUGAAGUCCUAUU 3789 R-008397972-000K 1365 939 UAGGACUUCACCUGACAGA B UAGGACUUCACCUGACAGATT B 3788 R-008397975-000L 2442 940 GCCAGGAUGCCUUGGGUAU B GCCAGGAUGCCUUGGGUAUTT B 3790 R-008397975-000L 2442 940 GCCAGGAUGCCUUGGGUAU AUACCCAAGGCAUCCUGGCUU 3791 R-008397978-000M 1249 941 AAUGAGGACCUAUACUUAC B AAUGAGGACCUAUACUUACTT B 3792 R-008397978-000M 1249 941 AAUGAGGACCUAUACUUAC GUAAGUAUAGGUCCUCAUUUU 3793 R-008397981-000U 1144 942 AUUCUUGGCUAUUACGACA B AUUCUUGGCUAUUACGACATT B 3794 R-008397981-000U 1144 942 AUUCUUGGCUAUUACGACA UGUCGUAAUAGCCAAGAAUUU 3795 R-008397984-000V 2075 943 CUUUAUUCUCCCAUUGAAA B CUUUAUUCUCCCAUUGAAATT B 3796 R-008397984-000V 2075 943 CUUUAUUCUCCCAUUGAAA UUUCAAUGGGAGAAUAAAGUU 3797 R-008397987-000W 759 94 ACCAGGUGGUGGUUAAUAA B ACCAGGUGGUGGUUAAUAATT B 3798 R-008397987-000W 759 94 ACCAGGUGGUGGUUAAUAA UUAUUAACCACCACCUGGUUU 3799 R-008397990-000C 1545 44 ACCUCACUUGCAAUAAUUA B ACCUCACUUGCAAUAAUUATT B 3800 R-008397990-000C 1545 44 ACCUCACUUGCAAUAAUUA UAAUUAUUGCAAGUGAGGUUU 3801 R-008397993-000D 504 944 UAGCUGAUAUUGAUGGACA UGUCCAUCAAUAUCAGCUAUU 3803 R-008397993-000D 504 944 UAGCUGAUAUUGAUGGACA B UAGCUGAUAUUGAUGGACATT B 3802 R-008397996-000E 1405 945 GAACUGUCUUUGGACUCUC B GAACUGUCUUUGGACUCUCTT B 3804 R-008397996-000E 1405 945 GAACUGUCUUUGGACUCUC GAGAGUCCAAAGACAGUUCUU 3805 R-008397999-000F 333 946 UUAGUCACUGGCAGCAACA UGUUGCUGCCAGUGACUAAUU 3807 R-008397999-000F 333 946 UUAGUCACUGGCAGCAACA B UUAGUCACUGGCAGCAACATT B 3806 R-008398002-000V 1032 947 CCAUUACAACUCUCCACAA B CCAUUACAACUCUCCACAATT B 3808 R-008398002-000V 1032 947 CCAUUACAACUCUCCACAA UUGUGGAGAGUUGUAAUGGUU 3809 R-008398005-000W 1748 948 GUGGUUAAGCUCUUACACC B GUGGUUAAGCUCUUACACCTT B 3810 R-008398005-000W 1748 948 GUGGUUAAGCUCUUACACC GGUGUAAGAGCUUAACCACUU 3811 R-008398008-000X 283 949 UGAUUUGAUGGAGUUGGAC GUCCAACUCCAUCAAAUCAUU 3813 R-008398008-000X 283 949 UGAUUUGAUGGAGUUGGAC B UGAUUUGAUGGAGUUGGACTT B 3812 R-008398011-000D 1700 950 GCAGAGAUGGCCCAGAAUG B GCAGAGAUGGCCCAGAAUGTT B 3814 R-008398011-000D 1700 950 GCAGAGAUGGCCCAGAAUG CAUUCUGGGCCAUCUCUGCUU 3815 R-008398014-000E 1445 951 ACUAAACAGGAAGGGAUGG B ACUAAACAGGAAGGGAUGGTT B 3816 R-008398014-000E 1445 951 ACUAAACAGGAAGGGAUGG CCAUCCCUUCCUGUUUAGUUU 3817 R-008398017-000F 1133 952 ACAAAUGUUAAAUUCUUGG CCAAGAAUUUAACAUUUGUUU 3819 R-008398017-000F 1133 952 ACAAAUGUUAAAUUCUUGG B ACAAAUGUUAAAUUCUUGGTT B 3818 R-008398020-000M 527 953 GCAAUGACUCGAGCUCAGA UCUGAGCUCGAGUCAUUGCUU 3821 R-008398020-000M 527 953 GCAAUGACUCGAGCUCAGA B GCAAUGACUCGAGCUCAGATT B 3820 R-008398023-000N 2010 954 CUCGGGAUGUUCACAACCG CGGUUGUGAACAUCCCGAGUU 3823 R-008398023-000N 2010 954 CUCGGGAUGUUCACAACCG B CUCGGGAUGUUCACAACCGTT B 3822 R-008398026-000P 851 955 GUGUCUGCUAUUGUACGUA UACGUACAAUAGCAGACACUU 3825 R-008398026-000P 851 955 GUGUCUGCUAUUGUACGUA B GUGUCUGCUAUUGUACGUATT B 3824 R-008398029-000R 436 956 UGUGGAUACCUCCCAAGUC B UGUGGAUACCUCCCAAGUCTT B 3826 R-008398029-000R 436 956 UGUGGAUACCUCCCAAGUC GACUUGGGAGGUAUCCACAUU 3827 R-008398032-000X 1601 2 GAGGCUCUUGUGCGUACUG B GAGGCUCUUGUGCGUACUGTT B 3828 R-008398032-000X 1601 2 GAGGCUCUUGUGCGUACUG CAGUACGCACAAGAGCCUCUU 3829 R-008398035-000Y 2446 957 GGAUGCCUUGGGUAUGGAC B GGAUGCCUUGGGUAUGGACTT B 3830 R-008398035-000Y 2446 957 GGAUGCCUUGGGUAUGGAC GUCCAUACCCAAGGCAUCCUU 3831 R-008398038-000Z 1142 958 AAAUUCUUGGCUAUUACGA B AAAUUCUUGGCUAUUACGATT B 3832 R-008398038-000Z 1142 958 AAAUUCUUGGCUAUUACGA UCGUAAUAGCCAAGAAUUUUU 3833 R-008398041-000F 549 959 UACGAGCUGCUAUGUUCCC B UACGAGCUGCUAUGUUCCCTT B 3834 R-008398041-000F 549 959 UACGAGCUGCUAUGUUCCC GGGAACAUAGCAGCUCGUAUU 3835 R-008398044-000G 1083 960 CAGUGCGUUUAGCUGGUGG CCACCAGCUAAACGCACUGUU 3837 R-008398044-000G 1083 960 CAGUGCGUUUAGCUGGUGG B CAGUGCGUUUAGCUGGUGGTT B 3836 R-008398047-000H 695 961 CAAGAUGAUGCAGAACUUG CAAGUUCUGCAUCAUCUUGUU 3839 R-008398047-000H 695 961 CAAGAUGAUGCAGAACUUG B CAAGAUGAUGCAGAACUUGTT B 3838 R-008398050-000P 885 962 AUGAUGUAGAAACAGCUCG B AUGAUGUAGAAACAGCUCGTT B 3840 R-008398050-000P 885 962 AUGAUGUAGAAACAGCUCG CGAGCUGUUUCUACAUCAUUU 3841 R-008398056-000S 2067 963 UGCAGCUGCUUUAUUCUCC B UGCAGCUGCUUUAUUCUCCTT B 3842 R-008398056-000S 2067 963 UGCAGCUGCUUUAUUCUCC GGAGAAUAAAGCAGCUGCAUU 3843 R-008398059-000T 390 964 CCACAGCUCCUUCUCUGAG CUCAGAGAAGGAGCUGUGGUU 3845 R-008398059-000T 390 964 CCACAGCUCCUUCUCUGAG B CCACAGCUCCUUCUCUGAGTT B 3844 R-008398062-000Z 1719 965 CAGUUCGCCUUCACUAUGG B CAGUUCGCCUUCACUAUGGTT B 3846 R-008398062-000Z 1719 965 CAGUUCGCCUUCACUAUGG CCAUAGUGAAGGCGAACUGUU 3847 R-008398065-000A 813 966 AAGCUUCCAGACACGCUAU AUAGCGUGUCUGGAAGCUUUU 3849 R-008398065-000A 813 966 AAGCUUCCAGACACGCUAU B AAGCUUCCAGACACGCUAUTT B 3848 R-008398068-000B 2289 967 UUUCAGUUGAGCUGACCAG B UUUCAGUUGAGCUGACCAGTT B 3850 R-008398068-000B 2289 967 UUUCAGUUGAGCUGACCAG CUGGUCAGCUCAACUGAAAUU 3851 R-008398071-000H 377 968 UCUGGUGCCACUACCACAG B UCUGGUGCCACUACCACAGTT B 3852 R-008398071-000H 377 968 UCUGGUGCCACUACCACAG CUGUGGUAGUGGCACCAGAUU 3853 R-008398074-000J 826 969 CGCUAUCAUGCGUUCUCCU AGGAGAACGCAUGAUAGCGUU 3855 R-008398074-000J 826 969 CGCUAUCAUGCGUUCUCCU B CGCUAUCAUGCGUUCUCCUTT B 3854 R-008398077-000K 1634 970 GACAGGGAAGACAUCACUG CAGUGAUGUCUUCCCUGUCUU 3857 R-008398077-000K 1634 970 GACAGGGAAGACAUCACUG B GACAGGGAAGACAUCACUGTT B 3856 R-008398080-000S 1208 971 AUCAUACUGGCUAGUGGUG B AUCAUACUGGCUAGUGGUGTT B 3858 R-008398080-000S 1208 971 AUCAUACUGGCUAGUGGUG CACCACUAGCCAGUAUGAUUU 3859 R-008398083-000T 1628 972 GCUGGUGACAGGGAAGACA UGUCUUCCCUGUCACCAGCUU 3861 R-008398083-000T 1628 972 GCUGGUGACAGGGAAGACA B GCUGGUGACAGGGAAGACATT B 3860 R-008398086-000U 2003 973 AUCCUAGCUCGGGAUGUUC GAACAUCCCGAGCUAGGAUUU 3863 R-008398086-000U 2003 973 AUCCUAGCUCGGGAUGUUC B AUCCUAGCUCGGGAUGUUCTT B 3862 R-008398089-000V 452 974 GUCCUGUAUGAGUGGGAAC B GUCCUGUAUGAGUGGGAACTT B 3864 R-008398089-000V 452 974 GUCCUGUAUGAGUGGGAAC GUUCCCACUCAUACAGGACUU 3865 R-008398092-000B 2543 175 GCCCAGGACCUCAUGGAUG CAUCCAUGAGGUCCUGGGCUU 3867 R-008398092-000B 2543 175 GCCCAGGACCUCAUGGAUG B GCCCAGGACCUCAUGGAUGTT B 3866 R-008398095-000C 3081 975 UGGGAUAUGUAUGGGUAGG CCUACCCAUACAUAUCCCAUU 3869 R-008398095-000C 3081 975 UGGGAUAUGUAUGGGUAGG B UGGGAUAUGUAUGGGUAGGTT B 3868 R-008398098-000D 2354 976 CUUGGACUUGAUAUUGGUG B CUUGGACUUGAUAUUGGUGTT B 3870 R-008398098-000D 2354 976 CUUGGACUUGAUAUUGGUG CACCAAUAUCAAGUCCAAGUU 3871 R-008398101-000W 1822 977 CCUUUGUCCCGCAAAUCAU B CCUUUGUCCCGCAAAUCAUTT B 3872 R-008398101-000W 1822 977 CCUUUGUCCCGCAAAUCAU AUGAUUUGCGGGACAAAGGUU 3873 R-008398107-000Y 1299 978 UGAAGGUGCUAUCUGUCUG CAGACAGAUAGCACCUUCAUU 3875 R-008398107-000Y 1299 978 UGAAGGUGCUAUCUGUCUG B UGAAGGUGCUAUCUGUCUGTT B 3874 R-008398110-000E 486 979 CCUUCACUCAAGAACAAGU B CCUUCACUCAAGAACAAGUTT B 3876 R-008398110-000E 486 979 CCUUCACUCAAGAACAAGU ACUUGUUCUUGAGUGAAGGUU 3877 R-008398116-000G 1463 980 GAAGGUCUCCUUGGGACUC B GAAGGUCUCCUUGGGACUCTT B 3878 R-008398116-000G 1463 980 GAAGGUCUCCUUGGGACUC GAGUCCCAAGGAGACCUUCUU 3879 R-008398119-000H 2280 981 AGAAACGGCUUUCAGUUGA B AGAAACGGCUUUCAGUUGATT B 3880 R-008398119-000H 2280 981 AGAAACGGCUUUCAGUUGA UCAACUGAAAGCCGUUUCUUU 3881 R-008398122-000P 1907 982 ACCCAGCGCCGUACGUCCA B ACCCAGCGCCGUACGUCCATT B 3882 R-008398122-000P 1907 982 ACCCAGCGCCGUACGUCCA UGGACGUACGGCGCUGGGUUU 3883 R-008398125-000R 923 983 CAUAACCUUUCCCAUCAUC B CAUAACCUUUCCCAUCAUCTT B 3884 R-008398125-000R 923 983 CAUAACCUUUCCCAUCAUC GAUGAUGGGAAAGGUUAUGUU 3885 R-008398128-000S 1979 984 GAAGGUUGUACCGGAGCCC B GAAGGUUGUACCGGAGCCCTT B 3886 R-008398128-000S 1979 984 GAAGGUUGUACCGGAGCCC GGGCUCCGGUACAACCUUCUU 3887 R-008398131-000Y 1827 985 GUCCCGCAAAUCAUGCACC B GUCCCGCAAAUCAUGCACCTT B 3888 R-008398131-000Y 1827 985 GUCCCGCAAAUCAUGCACC GGUGCAUGAUUUGCGGGACUU 3889 R-008398134-000Z 1201 986 CAAGCUCAUCAUACUGGCU AGCCAGUAUGAUGAGCUUGUU 3891 R-008398134-000Z 1201 986 CAAGCUCAUCAUACUGGCU B CAAGCUCAUCAUACUGGCUTT B 3890 R-008398137-000A 1913 987 CGCCGUACGUCCAUGGGUG B CGCCGUACGUCCAUGGGUGTT B 3892 R-008398137-000A 1913 987 CGCCGUACGUCCAUGGGUG CACCCAUGGACGUACGGCGUU 3893 R-008398140-000G 2191 988 AGAGUUACUUCACUCUAGG CCUAGAGUGAAGUAACUCUUU 3895 R-008398140-000G 2191 988 AGAGUUACUUCACUCUAGG B AGAGUUACUUCACUCUAGGTT B 3894 R-008398143-000H 295 989 GUUGGACAUGGCCAUGGAA UUCCAUGGCCAUGUCCAACUU 3897 R-008398143-000H 295 989 GUUGGACAUGGCCAUGGAA B GUUGGACAUGGCCAUGGAATT B 3896 R-008398146-000J 1149 990 UGGCUAUUACGACAGACUG B UGGCUAUUACGACAGACUGTT B 3898 R-008398146-000J 1149 990 UGGCUAUUACGACAGACUG CAGUCUGUCGUAAUAGCCAUU 3899 R-008398149-000K 533 991 ACUCGAGCUCAGAGGGUAC B ACUCGAGCUCAGAGGGUACTT B 3900 R-008398149-000K 533 991 ACUCGAGCUCAGAGGGUAC GUACCCUCUGAGCUCGAGUUU 3901 R-008398152-000S 604 992 ACAGUUUGAUGCUGCUCAU B ACAGUUUGAUGCUGCUCAUTT B 3902 R-008398152-000S 604 992 ACAGUUUGAUGCUGCUCAU AUGAGCAGCAUCAAACUGUUU 3903 R-008398155-000T 766 993 GGUGGUUAAUAAGGCUGCA B GGUGGUUAAUAAGGCUGCATT B 3904 R-008398155-000T 766 993 GGUGGUUAAUAAGGCUGCA UGCAGCCUUAUUAACCACCUU 3905 R-008398158-000U 1823 994 CUUUGUCCCGCAAAUCAUG B CUUUGUCCCGCAAAUCAUGTT B 3906 R-008398158-000U 1823 994 CUUUGUCCCGCAAAUCAUG CAUGAUUUGCGGGACAAAGUU 3907 R-008398161-000A 2048 995 AAUACCAUUCCAUUGUUUG CAAACAAUGGAAUGGUAUUUU 3909 R-008398161-000A 2048 995 AAUACCAUUCCAUUGUUUG B AAUACCAUUCCAUUGUUUGTT B 3908 R-008398164-000B 714 996 CCACACGUGCAAUCCCUGA B CCACACGUGCAAUCCCUGATT B 3910 R-008398164-000B 714 996 CCACACGUGCAAUCCCUGA UCAGGGAUUGCACGUGUGGUU 3911 R-008398167-000C 2439 997 AUGGCCAGGAUGCCUUGGG CCCAAGGCAUCCUGGCCAUUU 3913 R-008398167-000C 2439 997 AUGGCCAGGAUGCCUUGGG B AUGGCCAGGAUGCCUUGGGTT B 3912 R-008398170-000J 1903 998 GGAUACCCAGCGCCGUACG B GGAUACCCAGCGCCGUACGTT B 3914 R-008398170-000J 1903 998 GGAUACCCAGCGCCGUACG CGUACGGCGCUGGGUAUCCUU 3915 R-008398173-000K 2395 999 UCGCCAGGAUGAUCCUAGC GCUAGGAUCAUCCUGGCGAUU 3917 R-008398173-000K 2395 999 UCGCCAGGAUGAUCCUAGC B UCGCCAGGAUGAUCCUAGCTT B 3916 R-008398176-000L 789 1000 UGGUCCAUCAGCUUUCUAA UUAGAAAGCUGAUGGACCAUU 3919 R-008398176-000L 789 1000 UGGUCCAUCAGCUUUCUAA B UGGUCCAUCAGCUUUCUAATT B 3918 R-008398179-000M 3085 1001 AUAUGUAUGGGUAGGGUAA UUACCCUACCCAUACAUAUUU 3921 R-008398179-000M 3085 1001 AUAUGUAUGGGUAGGGUAA B AUAUGUAUGGGUAGGGUAATT B 3920 R-008398182-000U 1710 1002 CCCAGAAUGCAGUUCGCCU B CCCAGAAUGCAGUUCGCCUTT B 3922 R-008398182-000U 1710 1002 CCCAGAAUGCAGUUCGCCU AGGCGAACUGCAUUCUGGGUU 3923 R-008398185-000V 1336 1003 UAUUGUAGAAGCUGGUGGA B UAUUGUAGAAGCUGGUGGATT B 3924 R-008398185-000V 1336 1003 UAUUGUAGAAGCUGGUGGA UCCACCAGCUUCUACAAUAUU 3925 R-008398188-000W 3089 1004 GUAUGGGUAGGGUAAAUCA UGAUUUACCCUACCCAUACUU 3927 R-008398188-000W 3089 1004 GUAUGGGUAGGGUAAAUCA B GUAUGGGUAGGGUAAAUCATT B 3926 R-008398191-000C 2351 1005 GAUCUUGGACUUGAUAUUG B GAUCUUGGACUUGAUAUUGTT B 3928 R-008398191-000C 2351 1005 GAUCUUGGACUUGAUAUUG CAAUAUCAAGUCCAAGAUCUU 3929 R-008398194-000D 716 1006 ACACGUGCAAUCCCUGAAC B ACACGUGCAAUCCCUGAACTT B 3930 R-008398194-000D 716 1006 ACACGUGCAAUCCCUGAAC GUUCAGGGAUUGCACGUGUUU 3931 R-008398197-000E 1911 1007 AGCGCCGUACGUCCAUGGG B AGCGCCGUACGUCCAUGGGTT B 3932 R-008398197-000E 1911 1007 AGCGCCGUACGUCCAUGGG CCCAUGGACGUACGGCGCUUU 3933 R-008398200-000X 1985 1008 UGUACCGGAGCCCUUCACA UGUGAAGGGCUCCGGUACAUU 3935 R-008398200-000X 1985 1008 UGUACCGGAGCCCUUCACA B UGUACCGGAGCCCUUCACATT B 3934 R-008398203-000Y 2516 1009 GUUGAUGGGCUGCCAGAUC B GUUGAUGGGCUGCCAGAUCTT B 3936 R-008398203-000Y 2516 1009 GUUGAUGGGCUGCCAGAUC GAUCUGGCAGCCCAUCAACUU 3937 R-008398206-000Z 1762 1010 ACACCCACCAUCCCACUGG CCAGUGGGAUGGUGGGUGUUU 3939 R-008398206-000Z 1762 1010 ACACCCACCAUCCCACUGG B ACACCCACCAUCCCACUGGTT B 3938 R-008398209-000A 1156 1011 UACGACAGACUGCCUUCAA B UACGACAGACUGCCUUCAATT B 3940 R-008398209-000A 1156 1011 UACGACAGACUGCCUUCAA UUGAAGGCAGUCUGUCGUAUU 3941 R-008398212-000G 1887 1012 UUGUUCGUGCACAUCAGGA B UUGUUCGUGCACAUCAGGATT B 3942 R-008398212-000G 1887 1012 UUGUUCGUGCACAUCAGGA UCCUGAUGUGCACGAACAAUU 3943 R-008398215-000H 1833 1013 CAAAUCAUGCACCUUUGCG CGCAAAGGUGCAUGAUUUGUU 3945 R-008398215-000H 1833 1013 CAAAUCAUGCACCUUUGCG B CAAAUCAUGCACCUUUGCGTT B 3944 R-008398218-000J 967 1014 GUCUGGAGGCAUUCCUGCC GGCAGGAAUGCCUCCAGACUU 3947 R-008398218-000J 967 1014 GUCUGGAGGCAUUCCUGCC B GUCUGGAGGCAUUCCUGCCTT B 3946 R-008398221-000R 1730 1015 CACUAUGGACUACCAGUUG CAACUGGUAGUCCAUAGUGUU 3949 R-008398221-000R 1730 1015 CACUAUGGACUACCAGUUG B CACUAUGGACUACCAGUUGTT B 3948 R-008398224-000S 829 1016 UAUCAUGCGUUCUCCUCAG CUGAGGAGAACGCAUGAUAUU 3951 R-008398224-000S 829 1016 UAUCAUGCGUUCUCCUCAG B UAUCAUGCGUUCUCCUCAGTT B 3950 R-008398227-000T 890 1017 GUAGAAACAGCUCGUUGUA B GUAGAAACAGCUCGUUGUATT B 3952 R-008398227-000T 890 1017 GUAGAAACAGCUCGUUGUA UACAACGAGCUGUUUCUACUU 3953 R-008398230-000Z 2181 1018 CUCCUCUGACAGAGUUACU AGUAACUCUGUCAGAGGAGUU 3955 R-008398230-000Z 2181 1018 CUCCUCUGACAGAGUUACU B CUCCUCUGACAGAGUUACUTT B 3954 R-008398233-000A 2131 1019 UGCUCAGGACAAGGAAGCU B UGCUCAGGACAAGGAAGCUTT B 3956 R-008398233-000A 2131 1019 UGCUCAGGACAAGGAAGCU AGCUUCCUUGUCCUGAGCAUU 3957 R-008398236-000B 1586 1020 CAAGUGGGUGGUAUAGAGG B CAAGUGGGUGGUAUAGAGGTT B 3958 R-008398236-000B 1586 1020 CAAGUGGGUGGUAUAGAGG CCUCUAUACCACCCACUUGUU 3959 R-008398239-000C 765 1021 UGGUGGUUAAUAAGGCUGC B UGGUGGUUAAUAAGGCUGCTT B 3960 R-008398239-000C 765 1021 UGGUGGUUAAUAAGGCUGC GCAGCCUUAUUAACCACCAUU 3961 R-008398242-000J 1369 1022 ACUUCACCUGACAGAUCCA B ACUUCACCUGACAGAUCCATT B 3962 R-008398242-000J 1369 1022 ACUUCACCUGACAGAUCCA UGGAUCUGUCAGGUGAAGUUU 3963 R-008398245-000K 1724 1023 CGCCUUCACUAUGGACUAC GUAGUCCAUAGUGAAGGCGUU 3965 R-008398245-000K 1724 1023 CGCCUUCACUAUGGACUAC B CGCCUUCACUAUGGACUACTT B 3964 R-008398248-000L 834 1024 UGCGUUCUCCUCAGAUGGU ACCAUCUGAGGAGAACGCAUU 3967 R-008398248-000L 834 1024 UGCGUUCUCCUCAGAUGGU B UGCGUUCUCCUCAGAUGGUTT B 3966 R-008398251-000T 1983 1025 GUUGUACCGGAGCCCUUCA B GUUGUACCGGAGCCCUUCATT B 3968 R-008398251-000T 1983 1025 GUUGUACCGGAGCCCUUCA UGAAGGGCUCCGGUACAACUU 3969 R-008398254-000U 1688 1026 CGACACCAAGAAGCAGAGA B CGACACCAAGAAGCAGAGATT B 3970 R-008398254-000U 1688 1026 CGACACCAAGAAGCAGAGA UCUCUGCUUCUUGGUGUCGUU 3971 R-008398257-000V 1004 1027 UCACCAGUGGAUUCUGUGU B UCACCAGUGGAUUCUGUGUTT B 3972 R-008398257-000V 1004 1027 UCACCAGUGGAUUCUGUGU ACACAGAAUCCACUGGUGAUU 3973 R-008398260-000B 1631 1028 GGUGACAGGGAAGACAUCA UGAUGUCUUCCCUGUCACCUU 3975 R-008398260-000B 1631 1028 GGUGACAGGGAAGACAUCA B GGUGACAGGGAAGACAUCATT B 3974 R-008398263-000C 1319 1029 UCUAGUAAUAAGCCGGCUA UAGCCGGCUUAUUACUAGAUU 3977 R-008398263-000C 1319 1029 UCUAGUAAUAAGCCGGCUA B UCUAGUAAUAAGCCGGCUATT B 3976 R-008398266-000D 767 1030 GUGGUUAAUAAGGCUGCAG B GUGGUUAAUAAGGCUGCAGTT B 3978 R-008398266-000D 767 1030 GUGGUUAAUAAGGCUGCAG CUGCAGCCUUAUUAACCACUU 3979 R-008398269-000E 841 1031 UCCUCAGAUGGUGUCUGCU AGCAGACACCAUCUGAGGAUU 3981 R-008398269-000E 841 1031 UCCUCAGAUGGUGUCUGCU B UCCUCAGAUGGUGUCUGCUTT B 3980 R-008398272-000L 516 1032 AUGGACAGUAUGCAAUGAC B AUGGACAGUAUGCAAUGACTT B 3982 R-008398272-000L 516 1032 AUGGACAGUAUGCAAUGAC GUCAUUGCAUACUGUCCAUUU 3983 R-008398275-000M 1848 1033 UGCGUGAGCAGGGUGCCAU AUGGCACCCUGCUCACGCAUU 3985 R-008398275-000M 1848 1033 UGCGUGAGCAGGGUGCCAU B UGCGUGAGCAGGGUGCCAUTT B 3984 R-008398278-000N 2202 1034 ACUCUAGGAAUGAAGGUGU B ACUCUAGGAAUGAAGGUGUTT B 3986 R-008398278-000N 2202 1034 ACUCUAGGAAUGAAGGUGU ACACCUUCAUUCCUAGAGUUU 3987 R-008398281-000V 571 1035 GACAUUAGAUGAGGGCAUG B GACAUUAGAUGAGGGCAUGTT B 3988 R-008398281-000V 571 1035 GACAUUAGAUGAGGGCAUG CAUGCCCUCAUCUAAUGUCUU 3989 R-008398284-000W 1629 1036 CUGGUGACAGGGAAGACAU B CUGGUGACAGGGAAGACAUTT B 3990 R-008398284-000W 1629 1036 CUGGUGACAGGGAAGACAU AUGUCUUCCCUGUCACCAGUU 3991 R-008398287-000X 1806 1037 UGAUUCGAAAUCUUGCCCU B UGAUUCGAAAUCUUGCCCUTT B 3992 R-008398287-000X 1806 1037 UGAUUCGAAAUCUUGCCCU AGGGCAAGAUUUCGAAUCAUU 3993 R-008398290-000D 1756 1038 GCUCUUACACCCACCAUCC B GCUCUUACACCCACCAUCCTT B 3994 R-008398290-000D 1756 1038 GCUCUUACACCCACCAUCC GGAUGGUGGGUGUAAGAGCUU 3995 R-008398293-000E 1619 1039 GUCCUUCGGGCUGGUGACA UGUCACCAGCCCGAAGGACUU 3997 R-008398293-000E 1619 1039 GUCCUUCGGGCUGGUGACA B GUCCUUCGGGCUGGUGACATT B 3996 R-008398296-000F 1610 1040 GUGCGUACUGUCCUUCGGG B GUGCGUACUGUCCUUCGGGTT B 3998 R-008398296-000F 1610 1040 GUGCGUACUGUCCUUCGGG CCCGAAGGACAGUACGCACUU 3999 R-008398299-000G 2500 1041 UGGUGCUGACUAUCCAGUU B UGGUGCUGACUAUCCAGUUTT B 4000 R-008398299-000G 2500 1041 UGGUGCUGACUAUCCAGUU AACUGGAUAGUCAGCACCAUU 4001 R-008398302-000Z 2156 1042 GCUAUUGAAGCUGAGGGAG B GCUAUUGAAGCUGAGGGAGTT B 4002 R-008398302-000Z 2156 1042 GCUAUUGAAGCUGAGGGAG CUCCCUCAGCUUCAAUAGCUU 4003 R-008398305-000A 1189 1043 CAACCAAGAAAGCAAGCUC GAGCUUGCUUUCUUGGUUGUU 4005 R-008398305-000A 1189 1043 CAACCAAGAAAGCAAGCUC B CAACCAAGAAAGCAAGCUCTT B 4004 R-008398308-000B 2066 1044 GUGCAGCUGCUUUAUUCUC GAGAAUAAAGCAGCUGCACUU 4007 R-008398308-000B 2066 1044 GUGCAGCUGCUUUAUUCUC B GUGCAGCUGCUUUAUUCUCTT B 4006 R-008398311-000H 1307 1045 CUAUCUGUCUGCUCUAGUA UACUAGAGCAGACAGAUAGUU 4009 R-008398311-000H 1307 1045 CUAUCUGUCUGCUCUAGUA B CUAUCUGUCUGCUCUAGUATT B 4008 R-008398314-000J 1448 1046 AAACAGGAAGGGAUGGAAG CUUCCAUCCCUUCCUGUUUUU 4011 R-008398314-000J 1448 1046 AAACAGGAAGGGAUGGAAG B AAACAGGAAGGGAUGGAAGTT B 4010 R-008398317-000K 1213 1047 ACUGGCUAGUGGUGGACCC B ACUGGCUAGUGGUGGACCCTT B 4012 R-008398317-000K 1213 1047 ACUGGCUAGUGGUGGACCC GGGUCCACCACUAGCCAGUUU 4013 R-008398320-000S 2119 1048 CCUCUGUGAACUUGCUCAG B CCUCUGUGAACUUGCUCAGTT B 4014 R-008398320-000S 2119 1048 CCUCUGUGAACUUGCUCAG CUGAGCAAGUUCACAGAGGUU 4015 R-008398323-000T 2546 72 CAGGACCUCAUGGAUGGGC B CAGGACCUCAUGGAUGGGCTT B 4016 R-008398323-000T 2546 72 CAGGACCUCAUGGAUGGGC GCCCAUCCAUGAGGUCCUGUU 4017 R-008398326-000U 889 1049 UGUAGAAACAGCUCGUUGU B UGUAGAAACAGCUCGUUGUTT B 4018 R-008398326-000U 889 1049 UGUAGAAACAGCUCGUUGU ACAACGAGCUGUUUCUACAUU 4019 R-008398329-000V 1376 1050 CUGACAGAUCCAAGUCAAC B CUGACAGAUCCAAGUCAACTT B 4020 R-008398329-000V 1376 1050 CUGACAGAUCCAAGUCAAC GUUGACUUGGAUCUGUCAGUU 4021 R-008398332-000B 427 1051 GGAAGAGGAUGUGGAUACC GGUAUCCACAUCCUCUUCCUU 4023 R-008398332-000B 427 1051 GGAAGAGGAUGUGGAUACC B GGAAGAGGAUGUGGAUACCTT B 4022 R-008398335-000C 649 1052 ACCAUCACAGAUGCUGAAA B ACCAUCACAGAUGCUGAAATT B 4024 R-008398335-000C 649 1052 ACCAUCACAGAUGCUGAAA UUUCAGCAUCUGUGAUGGUUU 4025 R-008398338-000D 1915 1053 CCGUACGUCCAUGGGUGGG B CCGUACGUCCAUGGGUGGGTT B 4026 R-008398338-000D 1915 1053 CCGUACGUCCAUGGGUGGG CCCACCCAUGGACGUACGGUU 4027 R-008398341-000K 2053 1054 CAUUCCAUUGUUUGUGCAG B CAUUCCAUUGUUUGUGCAGTT B 4028 R-008398341-000K 2053 1054 CAUUCCAUUGUUUGUGCAG CUGCACAAACAAUGGAAUGUU 4029 R-008398344-000L 2000 24 CACAUCCUAGCUCGGGAUG CAUCCCGAGCUAGGAUGUGUU 4031 R-008398344-000L 2000 24 CACAUCCUAGCUCGGGAUG B CACAUCCUAGCUCGGGAUGTT B 4030 R-008398347-000M 2568 1055 CUCCAGGUGACAGCAAUCA B CUCCAGGUGACAGCAAUCATT B 4032 R-008398347-000M 2568 1055 CUCCAGGUGACAGCAAUCA UGAUUGCUGUCACCUGGAGUU 4033 R-008398350-000U 1739 1056 CUACCAGUUGUGGUUAAGC GCUUAACCACAACUGGUAGUU 4035 R-008398350-000U 1739 1056 CUACCAGUUGUGGUUAAGC B CUACCAGUUGUGGUUAAGCTT B 4034 R-008398353-000V 1746 1057 UUGUGGUUAAGCUCUUACA B UUGUGGUUAAGCUCUUACATT B 4036 R-008398353-000V 1746 1057 UUGUGGUUAAGCUCUUACA UGUAAGAGCUUAACCACAAUU 4037 R-008398356-000W 1321 1058 UAGUAAUAAGCCGGCUAUU AAUAGCCGGCUUAUUACUAUU 4039 R-008398356-000W 1321 1058 UAGUAAUAAGCCGGCUAUU B UAGUAAUAAGCCGGCUAUUTT B 4038 R-008398359-000X 482 1059 CAGUCCUUCACUCAAGAAC GUUCUUGAGUGAAGGACUGUU 4041 R-008398359-000X 482 1059 CAGUCCUUCACUCAAGAAC B CAGUCCUUCACUCAAGAACTT B 4040 R-008398362-000D 280 1060 AGCUGAUUUGAUGGAGUUG CAACUCCAUCAAAUCAGCUUU 4043 R-008398362-000D 280 1060 AGCUGAUUUGAUGGAGUUG B AGCUGAUUUGAUGGAGUUGTT B 4042 R-008398365-000E 1465 1061 AGGUCUCCUUGGGACUCUU B AGGUCUCCUUGGGACUCUUTT B 4044 R-008398365-000E 1465 1061 AGGUCUCCUUGGGACUCUU AAGAGUCCCAAGGAGACCUUU 4045 R-008398368-000F 1731 1062 ACUAUGGACUACCAGUUGU ACAACUGGUAGUCCAUAGUUU 4047 R-008398368-000F 1731 1062 ACUAUGGACUACCAGUUGU B ACUAUGGACUACCAGUUGUTT B 4046 R-008398371-000M 1937 1063 CAGCAGCAAUUUGUGGAGG B CAGCAGCAAUUUGUGGAGGTT B 4048 R-008398371-000M 1937 1063 CAGCAGCAAUUUGUGGAGG CCUCCACAAAUUGCUGCUGUU 4049 R-008398374-000N 1892 1064 CGUGCACAUCAGGAUACCC B CGUGCACAUCAGGAUACCCTT B 4050 R-008398374-000N 1892 1064 CGUGCACAUCAGGAUACCC GGGUAUCCUGAUGUGCACGUU 4051 R-008398377-000P 836 1065 CGUUCUCCUCAGAUGGUGU B CGUUCUCCUCAGAUGGUGUTT B 4052 R-008398377-000P 836 1065 CGUUCUCCUCAGAUGGUGU ACACCAUCUGAGGAGAACGUU 4053 R-008398380-000W 521 1066 CAGUAUGCAAUGACUCGAG CUCGAGUCAUUGCAUACUGUU 4055 R-008398380-000W 521 1066 CAGUAUGCAAUGACUCGAG B CAGUAUGCAAUGACUCGAGTT B 4054 R-008398383-000X 1595 1067 GGUAUAGAGGCUCUUGUGC GCACAAGAGCCUCUAUACCUU 4057 R-008398383-000X 1595 1067 GGUAUAGAGGCUCUUGUGC B GGUAUAGAGGCUCUUGUGCTT B 4056 R-008398386-000Y 2511 1068 AUCCAGUUGAUGGGCUGCC GGCAGCCCAUCAACUGGAUUU 4059 R-008398386-000Y 2511 1068 AUCCAGUUGAUGGGCUGCC B AUCCAGUUGAUGGGCUGCCTT B 4058 R-008398389-000Z 1583 1069 UGCCAAGUGGGUGGUAUAG B UGCCAAGUGGGUGGUAUAGTT B 4060 R-008398389-000Z 1583 1069 UGCCAAGUGGGUGGUAUAG CUAUACCACCCACUUGGCAUU 4061 R-008398392-000F 1897 1070 ACAUCAGGAUACCCAGCGC GCGCUGGGUAUCCUGAUGUUU 4063 R-008398392-000F 1897 1070 ACAUCAGGAUACCCAGCGC B ACAUCAGGAUACCCAGCGCTT B 4062 R-008398395-000G 956 1071 GCCAUCUUUAAGUCUGGAG CUCCAGACUUAAAGAUGGCUU 4065 R-008398395-000G 956 1071 GCCAUCUUUAAGUCUGGAG B GCCAUCUUUAAGUCUGGAGTT B 4064 R-008398398-000H 926 1072 AACCUUUCCCAUCAUCGUG B AACCUUUCCCAUCAUCGUGTT B 4066 R-008398398-000H 926 1072 AACCUUUCCCAUCAUCGUG CACGAUGAUGGGAAAGGUUUU 4067 R-008398401-000A 1874 1073 CUAGUUCAGUUGCUUGUUC GAACAAGCAACUGAACUAGUU 4069 R-008398401-000A 1874 1073 CUAGUUCAGUUGCUUGUUC B CUAGUUCAGUUGCUUGUUCTT B 4068 R-008398404-000B 488 1074 UUCACUCAAGAACAAGUAG B UUCACUCAAGAACAAGUAGTT B 4070 R-008398404-000B 488 1074 UUCACUCAAGAACAAGUAG CUACUUGUUCUUGAGUGAAUU 4071 R-008398407-000C 1602 21 AGGCUCUUGUGCGUACUGU B AGGCUCUUGUGCGUACUGUTT B 4072 R-008398407-000C 1602 21 AGGCUCUUGUGCGUACUGU ACAGUACGCACAAGAGCCUUU 4073 R-008398410-000J 1695 1075 AAGAAGCAGAGAUGGCCCA UGGGCCAUCUCUGCUUCUUUU 4075 R-008398410-000J 1695 1075 AAGAAGCAGAGAUGGCCCA B AAGAAGCAGAGAUGGCCCATT B 4074 R-008398413-000K 2182 1076 UCCUCUGACAGAGUUACUU B UCCUCUGACAGAGUUACUUTT B 4076 R-008398413-000K 2182 1076 UCCUCUGACAGAGUUACUU AAGUAACUCUGUCAGAGGAUU 4077 R-008398416-000L 2029 1077 AAUUGUUAUCAGAGGACUA UAGUCCUCUGAUAACAAUUUU 4079 R-008398416-000L 2029 1077 AAUUGUUAUCAGAGGACUA B AAUUGUUAUCAGAGGACUATT B 4078 R-008398419-000M 479 1078 UCUCAGUCCUUCACUCAAG B UCUCAGUCCUUCACUCAAGTT B 4080 R-008398419-000M 479 1078 UCUCAGUCCUUCACUCAAG CUUGAGUGAAGGACUGAGAUU 4081 R-008398422-000U 818 1079 UCCAGACACGCUAUCAUGC GCAUGAUAGCGUGUCUGGAUU 4083 R-008398422-000U 818 1079 UCCAGACACGCUAUCAUGC B UCCAGACACGCUAUCAUGCTT B 4082 R-008398425-000V 625 1080 CACUAAUGUCCAGCGUUUG B CACUAAUGUCCAGCGUUUGTT B 4084 R-008398425-000V 625 1080 CACUAAUGUCCAGCGUUUG CAAACGCUGGACAUUAGUGUU 4085 R-008398428-000W 3172 1081 UUGUAACCUGCUGUGAUAC B UUGUAACCUGCUGUGAUACTT B 4086 R-008398428-000W 3172 1081 UUGUAACCUGCUGUGAUAC GUAUCACAGCAGGUUACAAUU 4087 R-008398431-000C 1490 1082 CUUCUGGGUUCAGAUGAUA B CUUCUGGGUUCAGAUGAUATT B 4088 R-008398431-000C 1490 1082 CUUCUGGGUUCAGAUGAUA UAUCAUCUGAACCCAGAAGUU 4089 R-008398434-000D 1914 1083 GCCGUACGUCCAUGGGUGG B GCCGUACGUCCAUGGGUGGTT B 4090 R-008398434-000D 1914 1083 GCCGUACGUCCAUGGGUGG CCACCCAUGGACGUACGGCUU 4091 R-008398437-000E 882 100 CAAAUGAUGUAGAAACAGC GCUGUUUCUACAUCAUUUGUU 4093 R-008398437-000E 882 100 CAAAUGAUGUAGAAACAGC B CAAAUGAUGUAGAAACAGCTT B 4092 R-008398440-000L 1974 1084 UAGUUGAAGGUUGUACCGG CCGGUACAACCUUCAACUAUU 4095 R-008398440-000L 1974 1084 UAGUUGAAGGUUGUACCGG B UAGUUGAAGGUUGUACCGGTT B 4094 R-008398443-000M 2258 1085 GAGGACAAGCCACAAGAUU B GAGGACAAGCCACAAGAUUTT B 4096 R-008398443-000M 2258 1085 GAGGACAAGCCACAAGAUU AAUCUUGUGGCUUGUCCUCUU 4097 R-008398446-000N 2170 1086 GGGAGCCACAGCUCCUCUG CAGAGGAGCUGUGGCUCCCUU 4099 R-008398446-000N 2170 1086 GGGAGCCACAGCUCCUCUG B GGGAGCCACAGCUCCUCUGTT B 4098 R-008398449-000P 1370 1087 CUUCACCUGACAGAUCCAA B CUUCACCUGACAGAUCCAATT B 4100 R-008398449-000P 1370 1087 CUUCACCUGACAGAUCCAA UUGGAUCUGUCAGGUGAAGUU 4101 R-008398452-000W 1429 1088 UCUUUCAGAUGCUGCAACU B UCUUUCAGAUGCUGCAACUTT B 4102 R-008398452-000W 1429 1088 UCUUUCAGAUGCUGCAACU AGUUGCAGCAUCUGAAAGAUU 4103 R-008398455-000X 3173 1089 UGUAACCUGCUGUGAUACG B UGUAACCUGCUGUGAUACGTT B 4104 R-008398455-000X 3173 1089 UGUAACCUGCUGUGAUACG CGUAUCACAGCAGGUUACAUU 4105 R-008398458-000Y 444 1090 CCUCCCAAGUCCUGUAUGA B CCUCCCAAGUCCUGUAUGATT B 4106 R-008398458-000Y 444 1090 CCUCCCAAGUCCUGUAUGA UCAUACAGGACUUGGGAGGUU 4107 R-008398461-000E 1081 1091 GGCAGUGCGUUUAGCUGGU B GGCAGUGCGUUUAGCUGGUTT B 4108 R-008398461-000E 1081 1091 GGCAGUGCGUUUAGCUGGU ACCAGCUAAACGCACUGCCUU 4109 R-008398464-000F 1318 1092 CUCUAGUAAUAAGCCGGCU AGCCGGCUUAUUACUAGAGUU 4111 R-008398464-000F 1318 1092 CUCUAGUAAUAAGCCGGCU B CUCUAGUAAUAAGCCGGCUTT B 4110 R-008398467-000G 329 1093 GCUGUUAGUCACUGGCAGC B GCUGUUAGUCACUGGCAGCTT B 4112 R-008398467-000G 329 1093 GCUGUUAGUCACUGGCAGC GCUGCCAGUGACUAACAGCUU 4113 R-008398470-000N 1389 1094 GUCAACGUCUUGUUCAGAA UUCUGAACAAGACGUUGACUU 4115 R-008398470-000N 1389 1094 GUCAACGUCUUGUUCAGAA B GUCAACGUCUUGUUCAGAATT B 4114 R-008398473-000P 428 1095 GAAGAGGAUGUGGAUACCU AGGUAUCCACAUCCUCUUCUU 4117 R-008398473-000P 428 1095 GAAGAGGAUGUGGAUACCU B GAAGAGGAUGUGGAUACCUTT B 4116 R-008398476-000R 3175 1096 UAACCUGCUGUGAUACGAU AUCGUAUCACAGCAGGUUAUU 4119 R-008398476-000R 3175 1096 UAACCUGCUGUGAUACGAU B UAACCUGCUGUGAUACGAUTT B 4118 R-008398479-000S 1422 114 UCAGGAAUCUUUCAGAUGC B UCAGGAAUCUUUCAGAUGCTT B 4120 R-008398479-000S 1422 114 UCAGGAAUCUUUCAGAUGC GCAUCUGAAAGAUUCCUGAUU 4121 R-008398482-000Y 1500 97 CAGAUGAUAUAAAUGUGGU ACCACAUUUAUAUCAUCUGUU 4123 R-008398482-000Y 1500 97 CAGAUGAUAUAAAUGUGGU B CAGAUGAUAUAAAUGUGGUTT B 4122 R-008398485-000Z 3117 1097 GUUAUUUGGAACCUUGUUU B GUUAUUUGGAACCUUGUUUTT B 4124 R-008398485-000Z 3117 1097 GUUAUUUGGAACCUUGUUU AAACAAGGUUCCAAAUAACUU 4125 R-008398488-000A 2020 1098 UCACAACCGAAUUGUUAUC B UCACAACCGAAUUGUUAUCTT B 4126 R-008398488-000A 2020 1098 UCACAACCGAAUUGUUAUC GAUAACAAUUCGGUUGUGAUU 4127 R-008398491-000G 1625 1099 CGGGCUGGUGACAGGGAAG B CGGGCUGGUGACAGGGAAGTT B 4128 R-008398491-000G 1625 1099 CGGGCUGGUGACAGGGAAG CUUCCCUGUCACCAGCCCGUU 4129 R-008398494-000H 2022 1100 ACAACCGAAUUGUUAUCAG B ACAACCGAAUUGUUAUCAGTT B 4130 R-008398494-000H 2022 1100 ACAACCGAAUUGUUAUCAG CUGAUAACAAUUCGGUUGUUU 4131 R-008398497-000J 624 1101 CCACUAAUGUCCAGCGUUU B CCACUAAUGUCCAGCGUUUTT B 4132 R-008398497-000J 624 1101 CCACUAAUGUCCAGCGUUU AAACGCUGGACAUUAGUGGUU 4133 R-008398500-000B 1648 1102 CACUGAGCCUGCCAUCUGU ACAGAUGGCAGGCUCAGUGUU 4135 R-008398500-000B 1648 1102 CACUGAGCCUGCCAUCUGU B CACUGAGCCUGCCAUCUGUTT B 4134 R-008398503-000C 790 1103 GGUCCAUCAGCUUUCUAAA B GGUCCAUCAGCUUUCUAAATT B 4136 R-008398503-000C 790 1103 GGUCCAUCAGCUUUCUAAA UUUAGAAAGCUGAUGGACCUU 4137 R-008398506-000D 2122 59 CUGUGAACUUGCUCAGGAC B CUGUGAACUUGCUCAGGACTT B 4138 R-008398506-000D 2122 59 CUGUGAACUUGCUCAGGAC GUCCUGAGCAAGUUCACAGUU 4139 R-008398509-000E 3160 1104 AUCCCAAAGUUGUUGUAAC B AUCCCAAAGUUGUUGUAACTT B 4140 R-008398509-000E 3160 1104 AUCCCAAAGUUGUUGUAAC GUUACAACAACUUUGGGAUUU 4141 R-008398512-000L 1251 1105 UGAGGACCUAUACUUACGA B UGAGGACCUAUACUUACGATT B 4142 R-008398512-000L 1251 1105 UGAGGACCUAUACUUACGA UCGUAAGUAUAGGUCCUCAUU 4143 R-008398518-000N 2253 1106 UGUCUGAGGACAAGCCACA UGUGGCUUGUCCUCAGACAUU 4145 R-008398518-000N 2253 1106 UGUCUGAGGACAAGCCACA B UGUCUGAGGACAAGCCACATT B 4144 R-008398521-000V 2515 1107 AGUUGAUGGGCUGCCAGAU B AGUUGAUGGGCUGCCAGAUTT B 4146 R-008398521-000V 2515 1107 AGUUGAUGGGCUGCCAGAU AUCUGGCAGCCCAUCAACUUU 4147 R-008398524-000W 1680 1108 UGACCAGCCGACACCAAGA B UGACCAGCCGACACCAAGATT B 4148 R-008398524-000W 1680 1108 UGACCAGCCGACACCAAGA UCUUGGUGUCGGCUGGUCAUU 4149 R-008398527-000X 2169 1109 AGGGAGCCACAGCUCCUCU B AGGGAGCCACAGCUCCUCUTT B 4150 R-008398527-000X 2169 1109 AGGGAGCCACAGCUCCUCU AGAGGAGCUGUGGCUCCCUUU 4151 R-008398530-000D 3165 1110 AAAGUUGUUGUAACCUGCU AGCAGGUUACAACAACUUUUU 4153 R-008398530-000D 3165 1110 AAAGUUGUUGUAACCUGCU B AAAGUUGUUGUAACCUGCUTT B 4152 R-008398533-000E 780 1111 CUGCAGUUAUGGUCCAUCA UGAUGGACCAUAACUGCAGUU 4155 R-008398533-000E 780 1111 CUGCAGUUAUGGUCCAUCA B CUGCAGUUAUGGUCCAUCATT B 4154 R-008398536-000F 1978 1112 UGAAGGUUGUACCGGAGCC B UGAAGGUUGUACCGGAGCCTT B 4156 R-008398536-000F 1978 1112 UGAAGGUUGUACCGGAGCC GGCUCCGGUACAACCUUCAUU 4157 R-008398539-000G 661 122 GCUGAAACAUGCAGUUGUA B GCUGAAACAUGCAGUUGUATT B 4158 R-008398539-000G 661 122 GCUGAAACAUGCAGUUGUA UACAACUGCAUGUUUCAGCUU 4159 R-008398542-000N 1354 181 AAUGCAAGCUUUAGGACUU B AAUGCAAGCUUUAGGACUUTT B 4160 R-008398542-000N 1354 181 AAUGCAAGCUUUAGGACUU AAGUCCUAAAGCUUGCAUUUU 4161 R-008398545-000P 563 1113 UUCCCUGAGACAUUAGAUG B UUCCCUGAGACAUUAGAUGTT B 4162 R-008398545-000P 563 1113 UUCCCUGAGACAUUAGAUG CAUCUAAUGUCUCAGGGAAUU 4163 R-008398548-000R 1622 1114 CUUCGGGCUGGUGACAGGG B CUUCGGGCUGGUGACAGGGTT B 4164 R-008398548-000R 1622 1114 CUUCGGGCUGGUGACAGGG CCCUGUCACCAGCCCGAAGUU 4165 R-008398551-000X 2295 1115 UUGAGCUGACCAGCUCUCU AGAGAGCUGGUCAGCUCAAUU 4167 R-008398551-000X 2295 1115 UUGAGCUGACCAGCUCUCU B UUGAGCUGACCAGCUCUCUTT B 4166 R-008398554-000Y 2126 1116 GAACUUGCUCAGGACAAGG CCUUGUCCUGAGCAAGUUCUU 4169 R-008398554-000Y 2126 1116 GAACUUGCUCAGGACAAGG B GAACUUGCUCAGGACAAGGTT B 4168 R-008398557-000Z 1683 1117 CCAGCCGACACCAAGAAGC GCUUCUUGGUGUCGGCUGGUU 4171 R-008398557-000Z 1683 1117 CCAGCCGACACCAAGAAGC B CCAGCCGACACCAAGAAGCTT B 4170 R-008398560-000F 1857 1118 AGGGUGCCAUUCCACGACU AGUCGUGGAAUGGCACCCUUU 4173 R-008398560-000F 1857 1118 AGGGUGCCAUUCCACGACU B AGGGUGCCAUUCCACGACUTT B 4172 R-008398563-000G 2064 1119 UUGUGCAGCUGCUUUAUUC GAAUAAAGCAGCUGCACAAUU 4175 R-008398563-000G 2064 1119 UUGUGCAGCUGCUUUAUUC B UUGUGCAGCUGCUUUAUUCTT B 4174 R-008398566-000H 1245 31 AUAUAAUGAGGACCUAUAC GUAUAGGUCCUCAUUAUAUUU 4177 R-008398566-000H 1245 31 AUAUAAUGAGGACCUAUAC B AUAUAAUGAGGACCUAUACTT B 4176 R-008398569-000J 489 1120 UCACUCAAGAACAAGUAGC B UCACUCAAGAACAAGUAGCTT B 4178 R-008398569-000J 489 1120 UCACUCAAGAACAAGUAGC GCUACUUGUUCUUGAGUGAUU 4179 R-008398572-000R 1346 1121 GCUGGUGGAAUGCAAGCUU B GCUGGUGGAAUGCAAGCUUTT B 4180 R-008398572-000R 1346 1121 GCUGGUGGAAUGCAAGCUU AAGCUUGCAUUCCACCAGCUU 4181 R-008398575-000S 1442 1122 GCAACUAAACAGGAAGGGA UCCCUUCCUGUUUAGUUGCUU 4183 R-008398575-000S 1442 1122 GCAACUAAACAGGAAGGGA B GCAACUAAACAGGAAGGGATT B 4182 R-008398578-000T 1981 1123 AGGUUGUACCGGAGCCCUU B AGGUUGUACCGGAGCCCUUTT B 4184 R-008398578-000T 1981 1123 AGGUUGUACCGGAGCCCUU AAGGGCUCCGGUACAACCUUU 4185 R-008398581-000Z 777 1124 AGGCUGCAGUUAUGGUCCA UGGACCAUAACUGCAGCCUUU 4187 R-008398581-000Z 777 1124 AGGCUGCAGUUAUGGUCCA B AGGCUGCAGUUAUGGUCCATT B 4186 R-008398584-000A 589 1125 GCAGAUCCCAUCUACACAG CUGUGUAGAUGGGAUCUGCUU 4189 R-008398584-000A 589 1125 GCAGAUCCCAUCUACACAG B GCAGAUCCCAUCUACACAGTT B 4188 R-008398587-000B 2205 1126 CUAGGAAUGAAGGUGUGGC GCCACACCUUCAUUCCUAGUU 4191 R-008398587-000B 2205 1126 CUAGGAAUGAAGGUGUGGC B CUAGGAAUGAAGGUGUGGCTT B 4190 R-008398590-000H 394 1127 AGCUCCUUCUCUGAGUGGU B AGCUCCUUCUCUGAGUGGUTT B 4192 R-008398590-000H 394 1127 AGCUCCUUCUCUGAGUGGU ACCACUCAGAGAAGGAGCUUU 4193 R-008398593-000J 1035 1128 UUACAACUCUCCACAACCU B UUACAACUCUCCACAACCUTT B 4194 R-008398593-000J 1035 1128 UUACAACUCUCCACAACCU AGGUUGUGGAGAGUUGUAAUU 4195 R-008398605-000E 410 1129 GGUAAAGGCAAUCCUGAGG B GGUAAAGGCAAUCCUGAGGTT B 4196 R-008398605-000E 410 1129 GGUAAAGGCAAUCCUGAGG CCUCAGGAUUGCCUUUACCUU 4197 R-008398608-000F 1721 1130 GUUCGCCUUCACUAUGGAC GUCCAUAGUGAAGGCGAACUU 4199 R-008398608-000F 1721 1130 GUUCGCCUUCACUAUGGAC B GUUCGCCUUCACUAUGGACTT B 4198 R-008398611-000M 1134 1131 CAAAUGUUAAAUUCUUGGC GCCAAGAAUUUAACAUUUGUU 4201 R-008398611-000M 1134 1131 CAAAUGUUAAAUUCUUGGC B CAAAUGUUAAAUUCUUGGCTT B 4200 R-008398614-000N 3182 1132 CUGUGAUACGAUGCUUCAA B CUGUGAUACGAUGCUUCAATT B 4202 R-008398614-000N 3182 1132 CUGUGAUACGAUGCUUCAA UUGAAGCAUCGUAUCACAGUU 4203 R-008398617-000P 881 1133 ACAAAUGAUGUAGAAACAG B ACAAAUGAUGUAGAAACAGTT B 4204 R-008398617-000P 881 1133 ACAAAUGAUGUAGAAACAG CUGUUUCUACAUCAUUUGUUU 4205 R-008398620-000W 547 1134 GGUACGAGCUGCUAUGUUC GAACAUAGCAGCUCGUACCUU 4207 R-008398620-000W 547 1134 GGUACGAGCUGCUAUGUUC B GGUACGAGCUGCUAUGUUCTT B 4206 R-008398623-000X 2028 1135 GAAUUGUUAUCAGAGGACU AGUCCUCUGAUAACAAUUCUU 4209 R-008398623-000X 2028 1135 GAAUUGUUAUCAGAGGACU B GAAUUGUUAUCAGAGGACUTT B 4208 R-008398629-000Z 2023 1136 CAACCGAAUUGUUAUCAGA B CAACCGAAUUGUUAUCAGATT B 4210 R-008398629-000Z 2023 1136 CAACCGAAUUGUUAUCAGA UCUGAUAACAAUUCGGUUGUU 4211 R-008398632-000F 3184 1137 GUGAUACGAUGCUUCAAGA B GUGAUACGAUGCUUCAAGATT B 4212 R-008398632-000F 3184 1137 GUGAUACGAUGCUUCAAGA UCUUGAAGCAUCGUAUCACUU 4213 R-008398635-000G 413 1138 AAAGGCAAUCCUGAGGAAG CUUCCUCAGGAUUGCCUUUUU 4215 R-008398635-000G 413 1138 AAAGGCAAUCCUGAGGAAG B AAAGGCAAUCCUGAGGAAGTT B 4214 R-008398638-000H 2178 1139 CAGCUCCUCUGACAGAGUU B CAGCUCCUCUGACAGAGUUTT B 4216 R-008398638-000H 2178 1139 CAGCUCCUCUGACAGAGUU AACUCUGUCAGAGGAGCUGUU 4217 R-008398641-000P 618 143 CUCAUCCCACUAAUGUCCA B CUCAUCCCACUAAUGUCCATT B 4218 R-008398641-000P 618 143 CUCAUCCCACUAAUGUCCA UGGACAUUAGUGGGAUGAGUU 4219 R-008398644-000R 1577 1140 AUGGUCUGCCAAGUGGGUG B AUGGUCUGCCAAGUGGGUGTT B 4220 R-008398644-000R 1577 1140 AUGGUCUGCCAAGUGGGUG CACCCACUUGGCAGACCAUUU 4221 R-008398647-000S 1793 1141 GCUACUGUUGGAUUGAUUC GAAUCAAUCCAACAGUAGCUU 4223 R-008398647-000S 1793 1141 GCUACUGUUGGAUUGAUUC B GCUACUGUUGGAUUGAUUCTT B 4222 R-008398650-000Y 526 1142 UGCAAUGACUCGAGCUCAG B UGCAAUGACUCGAGCUCAGTT B 4224 R-008398650-000Y 526 1142 UGCAAUGACUCGAGCUCAG CUGAGCUCGAGUCAUUGCAUU 4225 R-008398653-000Z 2358 1143 GACUUGAUAUUGGUGCCCA UGGGCACCAAUAUCAAGUCUU 4227 R-008398653-000Z 2358 1143 GACUUGAUAUUGGUGCCCA B GACUUGAUAUUGGUGCCCATT B 4226 R-008398656-000A 852 11 UGUCUGCUAUUGUACGUAC B UGUCUGCUAUUGUACGUACTT B 4228 R-008398656-000A 852 11 UGUCUGCUAUUGUACGUAC GUACGUACAAUAGCAGACAUU 4229 R-008398659-000B 1403 1144 CAGAACUGUCUUUGGACUC GAGUCCAAAGACAGUUCUGUU 4231 R-008398659-000B 1403 1144 CAGAACUGUCUUUGGACUC B CAGAACUGUCUUUGGACUCTT B 4230 R-008398662-000H 1875 1145 UAGUUCAGUUGCUUGUUCG CGAACAAGCAACUGAACUAUU 4233 R-008398662-000H 1875 1145 UAGUUCAGUUGCUUGUUCG B UAGUUCAGUUGCUUGUUCGTT B 4232 R-008398665-000J 1160 1146 ACAGACUGCCUUCAAAUUU B ACAGACUGCCUUCAAAUUUTT B 4234 R-008398665-000J 1160 1146 ACAGACUGCCUUCAAAUUU AAAUUUGAAGGCAGUCUGUUU 4235 R-008398668-000K 1591 1147 GGGUGGUAUAGAGGCUCUU AAGAGCCUCUAUACCACCCUU 4237 R-008398668-000K 1591 1147 GGGUGGUAUAGAGGCUCUU B GGGUGGUAUAGAGGCUCUUTT B 4236 R-008398671-000S 1734 1148 AUGGACUACCAGUUGUGGU B AUGGACUACCAGUUGUGGUTT B 4238 R-008398671-000S 1734 1148 AUGGACUACCAGUUGUGGU ACCACAACUGGUAGUCCAUUU 4239 R-008398674-000T 2030 1149 AUUGUUAUCAGAGGACUAA UUAGUCCUCUGAUAACAAUUU 4241 R-008398674-000T 2030 1149 AUUGUUAUCAGAGGACUAA B AUUGUUAUCAGAGGACUAATT B 4240 R-008398677-000U 775 1150 UAAGGCUGCAGUUAUGGUC GACCAUAACUGCAGCCUUAUU 4243 R-008398677-000U 775 1150 UAAGGCUGCAGUUAUGGUC B UAAGGCUGCAGUUAUGGUCTT B 4242 R-008398680-000A 1813 1151 AAAUCUUGCCCUUUGUCCC GGGACAAAGGGCAAGAUUUUU 4245 R-008398680-000A 1813 1151 AAAUCUUGCCCUUUGUCCC B AAAUCUUGCCCUUUGUCCCTT B 4244 R-008398683-000B 1938 1152 AGCAGCAAUUUGUGGAGGG B AGCAGCAAUUUGUGGAGGGTT B 4246 R-008398683-000B 1938 1152 AGCAGCAAUUUGUGGAGGG CCCUCCACAAAUUGCUGCUUU 4247 R-008398686-000C 2039 1153 AGAGGACUAAAUACCAUUC B AGAGGACUAAAUACCAUUCTT B 4248 R-008398686-000C 2039 1153 AGAGGACUAAAUACCAUUC GAAUGGUAUUUAGUCCUCUUU 4249 R-008398689-000D 1297 1154 GCUGAAGGUGCUAUCUGUC B GCUGAAGGUGCUAUCUGUCTT B 4250 R-008398689-000D 1297 1154 GCUGAAGGUGCUAUCUGUC GACAGAUAGCACCUUCAGCUU 4251 R-008398692-000K 456 1155 UGUAUGAGUGGGAACAGGG CCCUGUUCCCACUCAUACAUU 4253 R-008398692-000K 456 1155 UGUAUGAGUGGGAACAGGG B UGUAUGAGUGGGAACAGGGTT B 4252 R-008398695-000L 869 51 ACCAUGCAGAAUACAAAUG B ACCAUGCAGAAUACAAAUGTT B 4254 R-008398695-000L 869 51 ACCAUGCAGAAUACAAAUG CAUUUGUAUUCUGCAUGGUUU 4255 R-008398698-000M 590 1156 CAGAUCCCAUCUACACAGU B CAGAUCCCAUCUACACAGUTT B 4256 R-008398698-000M 590 1156 CAGAUCCCAUCUACACAGU ACUGUGUAGAUGGGAUCUGUU 4257 R-008398701-000E 1933 1157 GACACAGCAGCAAUUUGUG B GACACAGCAGCAAUUUGUGTT B 4258 R-008398701-000E 1933 1157 GACACAGCAGCAAUUUGUG CACAAAUUGCUGCUGUGUCUU 4259 R-008398704-000F 583 1158 GGGCAUGCAGAUCCCAUCU AGAUGGGAUCUGCAUGCCCUU 4261 R-008398704-000F 583 1158 GGGCAUGCAGAUCCCAUCU B GGGCAUGCAGAUCCCAUCUTT B 4260 R-008398707-000G 2540 1159 CAUGCCCAGGACCUCAUGG B CAUGCCCAGGACCUCAUGGTT B 4262 R-008398707-000G 2540 1159 CAUGCCCAGGACCUCAUGG CCAUGAGGUCCUGGGCAUGUU 4263 R-008398710-000N 2162 1160 GAAGCUGAGGGAGCCACAG B GAAGCUGAGGGAGCCACAGTT B 4264 R-008398710-000N 2162 1160 GAAGCUGAGGGAGCCACAG CUGUGGCUCCCUCAGCUUCUU 4265 R-008398713-000P 330 1161 CUGUUAGUCACUGGCAGCA B CUGUUAGUCACUGGCAGCATT B 4266 R-008398713-000P 330 1161 CUGUUAGUCACUGGCAGCA UGCUGCCAGUGACUAACAGUU 4267 R-008398716-000R 1481 1162 CUUGUUCAGCUUCUGGGUU B CUUGUUCAGCUUCUGGGUUTT B 4268 R-008398716-000R 1481 1162 CUUGUUCAGCUUCUGGGUU AACCCAGAAGCUGAACAAGUU 4269 R-008398719-000S 1612 22 GCGUACUGUCCUUCGGGCU AGCCCGAAGGACAGUACGCUU 4271 R-008398719-000S 1612 22 GCGUACUGUCCUUCGGGCU B GCGUACUGUCCUUCGGGCUTT B 4270 R-008398722-000Y 1709 3 GCCCAGAAUGCAGUUCGCC GGCGAACUGCAUUCUGGGCUU 4273 R-008398722-000Y 1709 3 GCCCAGAAUGCAGUUCGCC B GCCCAGAAUGCAGUUCGCCTT B 4272 R-008398725-000Z 1344 1163 AAGCUGGUGGAAUGCAAGC GCUUGCAUUCCACCAGCUUUU 4275 R-008398725-000Z 1344 1163 AAGCUGGUGGAAUGCAAGC B AAGCUGGUGGAAUGCAAGCTT B 4274 R-008398728-000A 431 1164 GAGGAUGUGGAUACCUCCC GGGAGGUAUCCACAUCCUCUU 4277 R-008398728-000A 431 1164 GAGGAUGUGGAUACCUCCC B GAGGAUGUGGAUACCUCCCTT B 4276 R-008398731-000G 1508 1165 AUAAAUGUGGUCACCUGUG CACAGGUGACCACAUUUAUUU 4279 R-008398731-000G 1508 1165 AUAAAUGUGGUCACCUGUG B AUAAAUGUGGUCACCUGUGTT B 4278 R-008398734-000H 1918 1166 UACGUCCAUGGGUGGGACA B UACGUCCAUGGGUGGGACATT B 4280 R-008398734-000H 1918 1166 UACGUCCAUGGGUGGGACA UGUCCCACCCAUGGACGUAUU 4281 R-008398737-000J 289 1167 GAUGGAGUUGGACAUGGCC GGCCAUGUCCAACUCCAUCUU 4283 R-008398737-000J 289 1167 GAUGGAGUUGGACAUGGCC B GAUGGAGUUGGACAUGGCCTT B 4282 R-008398740-000R 631 1168 UGUCCAGCGUUUGGCUGAA B UGUCCAGCGUUUGGCUGAATT B 4284 R-008398740-000R 631 1168 UGUCCAGCGUUUGGCUGAA UUCAGCCAAACGCUGGACAUU 4285 R-008398743-000S 1642 60 AGACAUCACUGAGCCUGCC B AGACAUCACUGAGCCUGCCTT B 4286 R-008398743-000S 1642 60 AGACAUCACUGAGCCUGCC GGCAGGCUCAGUGAUGUCUUU 4287 R-008398746-000T 1853 1169 GAGCAGGGUGCCAUUCCAC B GAGCAGGGUGCCAUUCCACTT B 4288 R-008398746-000T 1853 1169 GAGCAGGGUGCCAUUCCAC GUGGAAUGGCACCCUGCUCUU 4289 R-008398749-000U 1243 1170 AAAUAUAAUGAGGACCUAU AUAGGUCCUCAUUAUAUUUUU 4291 R-008398749-000U 1243 1170 AAAUAUAAUGAGGACCUAU B AAAUAUAAUGAGGACCUAUTT B 4290 R-008398752-000A 1212 1171 UACUGGCUAGUGGUGGACC GGUCCACCACUAGCCAGUAUU 4293 R-008398752-000A 1212 1171 UACUGGCUAGUGGUGGACC B UACUGGCUAGUGGUGGACCTT B 4292 R-008398755-000B 996 1172 UGCUUGGUUCACCAGUGGA UCCACUGGUGAACCAAGCAUU 4295 R-008398755-000B 996 1172 UGCUUGGUUCACCAGUGGA B UGCUUGGUUCACCAGUGGATT B 4294 R-008398758-000C 2256 1173 CUGAGGACAAGCCACAAGA B CUGAGGACAAGCCACAAGATT B 4296 R-008398758-000C 2256 1173 CUGAGGACAAGCCACAAGA UCUUGUGGCUUGUCCUCAGUU 4297 R-008398761-000J 1607 1174 CUUGUGCGUACUGUCCUUC GAAGGACAGUACGCACAAGUU 4299 R-008398761-000J 1607 1174 CUUGUGCGUACUGUCCUUC B CUUGUGCGUACUGUCCUUCTT B 4298 R-008398764-000K 3116 1175 UGUUAUUUGGAACCUUGUU B UGUUAUUUGGAACCUUGUUTT B 4300 R-008398764-000K 3116 1175 UGUUAUUUGGAACCUUGUU AACAAGGUUCCAAAUAACAUU 4301 R-008398767-000L 1179 1176 UAGCUUAUGGCAACCAAGA UCUUGGUUGCCAUAAGCUAUU 4303 R-008398767-000L 1179 1176 UAGCUUAUGGCAACCAAGA B UAGCUUAUGGCAACCAAGATT B 4302 R-008398770-000T 3185 1177 UGAUACGAUGCUUCAAGAG CUCUUGAAGCAUCGUAUCAUU 4305 R-008398770-000T 3185 1177 UGAUACGAUGCUUCAAGAG B UGAUACGAUGCUUCAAGAGTT B 4304 R-008398773-000U 1594 1178 UGGUAUAGAGGCUCUUGUG CACAAGAGCCUCUAUACCAUU 4307 R-008398773-000U 1594 1178 UGGUAUAGAGGCUCUUGUG B UGGUAUAGAGGCUCUUGUGTT B 4306 R-008398776-000V 887 1179 GAUGUAGAAACAGCUCGUU B GAUGUAGAAACAGCUCGUUTT B 4308 R-008398776-000V 887 1179 GAUGUAGAAACAGCUCGUU AACGAGCUGUUUCUACAUCUU 4309 R-008398779-000W 928 1180 CCUUUCCCAUCAUCGUGAG B CCUUUCCCAUCAUCGUGAGTT B 4310 R-008398779-000W 928 1180 CCUUUCCCAUCAUCGUGAG CUCACGAUGAUGGGAAAGGUU 4311 R-008398782-000C 835 1181 GCGUUCUCCUCAGAUGGUG CACCAUCUGAGGAGAACGCUU 4313 R-008398782-000C 835 1181 GCGUUCUCCUCAGAUGGUG B GCGUUCUCCUCAGAUGGUGTT B 4312 R-008398785-000D 1900 1182 UCAGGAUACCCAGCGCCGU B UCAGGAUACCCAGCGCCGUTT B 4314 R-008398785-000D 1900 1182 UCAGGAUACCCAGCGCCGU ACGGCGCUGGGUAUCCUGAUU 4315 R-008398788-000E 2284 1183 ACGGCUUUCAGUUGAGCUG B ACGGCUUUCAGUUGAGCUGTT B 4316 R-008398788-000E 2284 1183 ACGGCUUUCAGUUGAGCUG CAGCUCAACUGAAAGCCGUUU 4317 R-008398791-000L 1976 1184 GUUGAAGGUUGUACCGGAG CUCCGGUACAACCUUCAACUU 4319 R-008398791-000L 1976 1184 GUUGAAGGUUGUACCGGAG B GUUGAAGGUUGUACCGGAGTT B 4318 R-008398794-000M 2393 1185 UAUCGCCAGGAUGAUCCUA B UAUCGCCAGGAUGAUCCUATT B 4320 R-008398794-000M 2393 1185 UAUCGCCAGGAUGAUCCUA UAGGAUCAUCCUGGCGAUAUU 4321 R-008398797-000N 1295 1186 GUGCUGAAGGUGCUAUCUG B GUGCUGAAGGUGCUAUCUGTT B 4322 R-008398797-000N 1295 1186 GUGCUGAAGGUGCUAUCUG CAGAUAGCACCUUCAGCACUU 4323 R-008398800-000F 1410 1187 GUCUUUGGACUCUCAGGAA UUCCUGAGAGUCCAAAGACUU 4325 R-008398800-000F 1410 1187 GUCUUUGGACUCUCAGGAA B GUCUUUGGACUCUCAGGAATT B 4324 R-008398803-000G 1457 1188 GGGAUGGAAGGUCUCCUUG B GGGAUGGAAGGUCUCCUUGTT B 4326 R-008398803-000G 1457 1188 GGGAUGGAAGGUCUCCUUG CAAGGAGACCUUCCAUCCCUU 4327 R-008398806-000H 2296 1189 UGAGCUGACCAGCUCUCUC B UGAGCUGACCAGCUCUCUCTT B 4328 R-008398806-000H 2296 1189 UGAGCUGACCAGCUCUCUC GAGAGAGCUGGUCAGCUCAUU 4329 R-008398809-000J 929 1190 CUUUCCCAUCAUCGUGAGG CCUCACGAUGAUGGGAAAGUU 4331 R-008398809-000J 929 1190 CUUUCCCAUCAUCGUGAGG B CUUUCCCAUCAUCGUGAGGTT B 4330 R-008398812-000R 1359 1191 AAGCUUUAGGACUUCACCU B AAGCUUUAGGACUUCACCUTT B 4332 R-008398812-000R 1359 1191 AAGCUUUAGGACUUCACCU AGGUGAAGUCCUAAAGCUUUU 4333 R-008398815-000S 1351 1192 UGGAAUGCAAGCUUUAGGA B UGGAAUGCAAGCUUUAGGATT B 4334 R-008398815-000S 1351 1192 UGGAAUGCAAGCUUUAGGA UCCUAAAGCUUGCAUUCCAUU 4335 R-008398818-000T 969 1193 CUGGAGGCAUUCCUGCCCU B CUGGAGGCAUUCCUGCCCUTT B 4336 R-008398818-000T 969 1193 CUGGAGGCAUUCCUGCCCU AGGGCAGGAAUGCCUCCAGUU 4337 R-008398821-000Z 1876 1194 AGUUCAGUUGCUUGUUCGU ACGAACAAGCAACUGAACUUU 4339 R-008398821-000Z 1876 1194 AGUUCAGUUGCUUGUUCGU B AGUUCAGUUGCUUGUUCGUTT B 4338 R-008398824-000A 552 1195 GAGCUGCUAUGUUCCCUGA B GAGCUGCUAUGUUCCCUGATT B 4340 R-008398824-000A 552 1195 GAGCUGCUAUGUUCCCUGA UCAGGGAACAUAGCAGCUCUU 4341 R-008398827-000B 2441 1196 GGCCAGGAUGCCUUGGGUA B GGCCAGGAUGCCUUGGGUATT B 4342 R-008398827-000B 2441 1196 GGCCAGGAUGCCUUGGGUA UACCCAAGGCAUCCUGGCCUU 4343 R-008398830-000H 2402 1197 GAUGAUCCUAGCUAUCGUU B GAUGAUCCUAGCUAUCGUUTT B 4344 R-008398830-000H 2402 1197 GAUGAUCCUAGCUAUCGUU AACGAUAGCUAGGAUCAUCUU 4345 R-008398833-000J 1803 1198 GAUUGAUUCGAAAUCUUGC GCAAGAUUUCGAAUCAAUCUU 4347 R-008398833-000J 1803 1198 GAUUGAUUCGAAAUCUUGC B GAUUGAUUCGAAAUCUUGCTT B 4346 R-008398836-000K 1701 1199 CAGAGAUGGCCCAGAAUGC B CAGAGAUGGCCCAGAAUGCTT B 4348 R-008398836-000K 1701 1199 CAGAGAUGGCCCAGAAUGC GCAUUCUGGGCCAUCUCUGUU 4349 R-008398839-000L 1910 1200 CAGCGCCGUACGUCCAUGG CCAUGGACGUACGGCGCUGUU 4351 R-008398839-000L 1910 1200 CAGCGCCGUACGUCCAUGG B CAGCGCCGUACGUCCAUGGTT B 4350 R-008398842-000T 888 1201 AUGUAGAAACAGCUCGUUG CAACGAGCUGUUUCUACAUUU 4353 R-008398842-000T 888 1201 AUGUAGAAACAGCUCGUUG B AUGUAGAAACAGCUCGUUGTT B 4352 R-008398845-000U 1294 1202 AGUGCUGAAGGUGCUAUCU AGAUAGCACCUUCAGCACUUU 4355 R-008398845-000U 1294 1202 AGUGCUGAAGGUGCUAUCU B AGUGCUGAAGGUGCUAUCUTT B 4354 R-008398848-000V 1737 1203 GACUACCAGUUGUGGUUAA UUAACCACAACUGGUAGUCUU 4357 R-008398848-000V 1737 1203 GACUACCAGUUGUGGUUAA B GACUACCAGUUGUGGUUAATT B 4356 R-008398851-000B 1450 1204 ACAGGAAGGGAUGGAAGGU B ACAGGAAGGGAUGGAAGGUTT B 4358 R-008398851-000B 1450 1204 ACAGGAAGGGAUGGAAGGU ACCUUCCAUCCCUUCCUGUUU 4359 R-008398854-000C 761 1205 CAGGUGGUGGUUAAUAAGG CCUUAUUAACCACCACCUGUU 4361 R-008398854-000C 761 1205 CAGGUGGUGGUUAAUAAGG B CAGGUGGUGGUUAAUAAGGTT B 4360 R-008398857-000D 776 1206 AAGGCUGCAGUUAUGGUCC B AAGGCUGCAGUUAUGGUCCTT B 4362 R-008398857-000D 776 1206 AAGGCUGCAGUUAUGGUCC GGACCAUAACUGCAGCCUUUU 4363 R-008398860-000K 1509 1207 UAAAUGUGGUCACCUGUGC GCACAGGUGACCACAUUUAUU 4365 R-008398860-000K 1509 1207 UAAAUGUGGUCACCUGUGC B UAAAUGUGGUCACCUGUGCTT B 4364 R-008398863-000L 1788 1208 UAAAGGCUACUGUUGGAUU B UAAAGGCUACUGUUGGAUUTT B 4366 R-008398863-000L 1788 1208 UAAAGGCUACUGUUGGAUU AAUCCAACAGUAGCCUUUAUU 4367 R-008398866-000M 515 1209 GAUGGACAGUAUGCAAUGA UCAUUGCAUACUGUCCAUCUU 4369 R-008398866-000M 515 1209 GAUGGACAGUAUGCAAUGA B GAUGGACAGUAUGCAAUGATT B 4368 R-008398869-000N 1491 1210 UUCUGGGUUCAGAUGAUAU B UUCUGGGUUCAGAUGAUAUTT B 4370 R-008398869-000N 1491 1210 UUCUGGGUUCAGAUGAUAU AUAUCAUCUGAACCCAGAAUU 4371 R-008398872-000V 1614 1211 GUACUGUCCUUCGGGCUGG B GUACUGUCCUUCGGGCUGGTT B 4372 R-008398872-000V 1614 1211 GUACUGUCCUUCGGGCUGG CCAGCCCGAAGGACAGUACUU 4373 R-008398875-000W 998 1212 CUUGGUUCACCAGUGGAUU B CUUGGUUCACCAGUGGAUUTT B 4374 R-008398875-000W 998 1212 CUUGGUUCACCAGUGGAUU AAUCCACUGGUGAACCAAGUU 4375 R-008398878-000X 2158 1213 UAUUGAAGCUGAGGGAGCC B UAUUGAAGCUGAGGGAGCCTT B 4376 R-008398878-000X 2158 1213 UAUUGAAGCUGAGGGAGCC GGCUCCCUCAGCUUCAAUAUU 4377 R-008398881-000D 3168 1214 GUUGUUGUAACCUGCUGUG B GUUGUUGUAACCUGCUGUGTT B 4378 R-008398881-000D 3168 1214 GUUGUUGUAACCUGCUGUG CACAGCAGGUUACAACAACUU 4379 R-008398884-000E 1854 1215 AGCAGGGUGCCAUUCCACG B AGCAGGGUGCCAUUCCACGTT B 4380 R-008398884-000E 1854 1215 AGCAGGGUGCCAUUCCACG CGUGGAAUGGCACCCUGCUUU 4381 R-008398887-000F 2117 1216 GUCCUCUGUGAACUUGCUC GAGCAAGUUCACAGAGGACUU 4383 R-008398887-000F 2117 1216 GUCCUCUGUGAACUUGCUC B GUCCUCUGUGAACUUGCUCTT B 4382 R-008398890-000M 1678 1217 UCUGACCAGCCGACACCAA UUGGUGUCGGCUGGUCAGAUU 4385 R-008398890-000M 1678 1217 UCUGACCAGCCGACACCAA B UCUGACCAGCCGACACCAATT B 4384 R-008398893-000N 2159 63 AUUGAAGCUGAGGGAGCCA B AUUGAAGCUGAGGGAGCCATT B 4386 R-008398893-000N 2159 63 AUUGAAGCUGAGGGAGCCA UGGCUCCCUCAGCUUCAAUUU 4387 R-008398896-000P 305 1218 GCCAUGGAACCAGACAGAA UUCUGUCUGGUUCCAUGGCUU 4389 R-008398896-000P 305 1218 GCCAUGGAACCAGACAGAA B GCCAUGGAACCAGACAGAATT B 4388 R-008398899-000R 2154 1219 AAGCUAUUGAAGCUGAGGG B AAGCUAUUGAAGCUGAGGGTT B 4390 R-008398899-000R 2154 1219 AAGCUAUUGAAGCUGAGGG CCCUCAGCUUCAAUAGCUUUU 4391 R-008398902-000H 1807 1220 GAUUCGAAAUCUUGCCCUU B GAUUCGAAAUCUUGCCCUUTT B 4392 R-008398902-000H 1807 1220 GAUUCGAAAUCUUGCCCUU AAGGGCAAGAUUUCGAAUCUU 4393 R-008398905-000J 1881 1221 AGUUGCUUGUUCGUGCACA B AGUUGCUUGUUCGUGCACATT B 4394 R-008398905-000J 1881 1221 AGUUGCUUGUUCGUGCACA UGUGCACGAACAAGCAACUUU 4395 R-008398908-000K 1565 1222 AAGAACAAGAUGAUGGUCU B AAGAACAAGAUGAUGGUCUTT B 4396 R-008398908-000K 1565 1222 AAGAACAAGAUGAUGGUCU AGACCAUCAUCUUGUUCUUUU 4397 R-008398911-000S 407 1223 AGUGGUAAAGGCAAUCCUG B AGUGGUAAAGGCAAUCCUGTT B 4398 R-008398911-000S 407 1223 AGUGGUAAAGGCAAUCCUG CAGGAUUGCCUUUACCACUUU 4399 R-008398914-000T 1434 1224 CAGAUGCUGCAACUAAACA UGUUUAGUUGCAGCAUCUGUU 4401 R-008398914-000T 1434 1224 CAGAUGCUGCAACUAAACA B CAGAUGCUGCAACUAAACATT B 4400 R-008398917-000U 566 1225 CCUGAGACAUUAGAUGAGG B CCUGAGACAUUAGAUGAGGTT B 4402 R-008398917-000U 566 1225 CCUGAGACAUUAGAUGAGG CCUCAUCUAAUGUCUCAGGUU 4403 R-008398920-000A 3161 1226 UCCCAAAGUUGUUGUAACC GGUUACAACAACUUUGGGAUU 4405 R-008398920-000A 3161 1226 UCCCAAAGUUGUUGUAACC B UCCCAAAGUUGUUGUAACCTT B 4404 R-008398923-000B 666 117 AACAUGCAGUUGUAAACUU AAGUUUACAACUGCAUGUUUU 4407 R-008398923-000B 666 117 AACAUGCAGUUGUAAACUU B AACAUGCAGUUGUAAACUUTT B 4406 R-008398926-000C 848 98 AUGGUGUCUGCUAUUGUAC GUACAAUAGCAGACACCAUUU 4409 R-008398926-000C 848 98 AUGGUGUCUGCUAUUGUAC B AUGGUGUCUGCUAUUGUACTT B 4408 R-008398929-000D 1679 1227 CUGACCAGCCGACACCAAG B CUGACCAGCCGACACCAAGTT B 4410 R-008398929-000D 1679 1227 CUGACCAGCCGACACCAAG CUUGGUGUCGGCUGGUCAGUU 4411 R-008398932-000K 2096 1228 AUCCAAAGAGUAGCUGCAG B AUCCAAAGAGUAGCUGCAGTT B 4412 R-008398932-000K 2096 1228 AUCCAAAGAGUAGCUGCAG CUGCAGCUACUCUUUGGAUUU 4413 R-008398935-000L 630 1229 AUGUCCAGCGUUUGGCUGA B AUGUCCAGCGUUUGGCUGATT B 4414 R-008398935-000L 630 1229 AUGUCCAGCGUUUGGCUGA UCAGCCAAACGCUGGACAUUU 4415 R-008398938-000M 1606 1230 UCUUGUGCGUACUGUCCUU AAGGACAGUACGCACAAGAUU 4417 R-008398938-000M 1606 1230 UCUUGUGCGUACUGUCCUU B UCUUGUGCGUACUGUCCUUTT B 4416 R-008398941-000U 432 1231 AGGAUGUGGAUACCUCCCA UGGGAGGUAUCCACAUCCUUU 4419 R-008398941-000U 432 1231 AGGAUGUGGAUACCUCCCA B AGGAUGUGGAUACCUCCCATT B 4418 R-008398944-000V 778 1232 GGCUGCAGUUAUGGUCCAU B GGCUGCAGUUAUGGUCCAUTT B 4420 R-008398944-000V 778 1232 GGCUGCAGUUAUGGUCCAU AUGGACCAUAACUGCAGCCUU 4421 R-008398947-000W 1999 1233 UCACAUCCUAGCUCGGGAU B UCACAUCCUAGCUCGGGAUTT B 4422 R-008398947-000W 1999 1233 UCACAUCCUAGCUCGGGAU AUCCCGAGCUAGGAUGUGAUU 4423 R-008398950-000C 1692 1234 ACCAAGAAGCAGAGAUGGC GCCAUCUCUGCUUCUUGGUUU 4425 R-008398950-000C 1692 1234 ACCAAGAAGCAGAGAUGGC B ACCAAGAAGCAGAGAUGGCTT B 4424 R-008398953-000D 2490 1235 GCCACCACCCUGGUGCUGA B GCCACCACCCUGGUGCUGATT B 4426 R-008398953-000D 2490 1235 GCCACCACCCUGGUGCUGA UCAGCACCAGGGUGGUGGCUU 4427 R-008398956-000E 623 1236 CCCACUAAUGUCCAGCGUU AACGCUGGACAUUAGUGGGUU 4429 R-008398956-000E 623 1236 CCCACUAAUGUCCAGCGUU B CCCACUAAUGUCCAGCGUUTT B 4428 R-008398959-000F 339 1237 ACUGGCAGCAACAGUCUUA B ACUGGCAGCAACAGUCUUATT B 4430 R-008398959-000F 339 1237 ACUGGCAGCAACAGUCUUA UAAGACUGUUGCUGCCAGUUU 4431 R-008398962-000M 2471 166 AUGGAACAUGAGAUGGGUG CACCCAUCUCAUGUUCCAUUU 4433 R-008398962-000M 2471 166 AUGGAACAUGAGAUGGGUG B AUGGAACAUGAGAUGGGUGTT B 4432 R-008398965-000N 2037 164 UCAGAGGACUAAAUACCAU AUGGUAUUUAGUCCUCUGAUU 4435 R-008398965-000N 2037 164 UCAGAGGACUAAAUACCAU B UCAGAGGACUAAAUACCAUTT B 4434 R-008398968-000P 912 179 CUGGGACCUUGCAUAACCU AGGUUAUGCAAGGUCCCAGUU 4437 R-008398968-000P 912 179 CUGGGACCUUGCAUAACCU B CUGGGACCUUGCAUAACCUTT B 4436 R-008398971-000W 2946 1238 AUCUGAAUAAAGUGUAACA B AUCUGAAUAAAGUGUAACATT B 4438 R-008398971-000W 2946 1238 AUCUGAAUAAAGUGUAACA UGUUACACUUUAUUCAGAUUU 4439 R-008398974-000X 1654 1239 GCCUGCCAUCUGUGCUCUU AAGAGCACAGAUGGCAGGCUU 4441 R-008398974-000X 1654 1239 GCCUGCCAUCUGUGCUCUU B GCCUGCCAUCUGUGCUCUUTT B 4440 R-008398977-000Y 1033 1240 CAUUACAACUCUCCACAAC B CAUUACAACUCUCCACAACTT B 4442 R-008398977-000Y 1033 1240 CAUUACAACUCUCCACAAC GUUGUGGAGAGUUGUAAUGUU 4443 R-008398980-000E 840 1241 CUCCUCAGAUGGUGUCUGC GCAGACACCAUCUGAGGAGUU 4445 R-008398980-000E 840 1241 CUCCUCAGAUGGUGUCUGC B CUCCUCAGAUGGUGUCUGCTT B 4444 R-008398983-000F 1880 1242 CAGUUGCUUGUUCGUGCAC GUGCACGAACAAGCAACUGUU 4447 R-008398983-000F 1880 1242 CAGUUGCUUGUUCGUGCAC B CAGUUGCUUGUUCGUGCACTT B 4446 R-008398986-000G 420 1243 AUCCUGAGGAAGAGGAUGU B AUCCUGAGGAAGAGGAUGUTT B 4448 R-008398986-000G 420 1243 AUCCUGAGGAAGAGGAUGU ACAUCCUCUUCCUCAGGAUUU 4449 R-008398989-000H 1005 1244 CACCAGUGGAUUCUGUGUU B CACCAGUGGAUUCUGUGUUTT B 4450 R-008398989-000H 1005 1244 CACCAGUGGAUUCUGUGUU AACACAGAAUCCACUGGUGUU 4451 R-008398992-000P 1193 1245 CAAGAAAGCAAGCUCAUCA B CAAGAAAGCAAGCUCAUCATT B 4452 R-008398992-000P 1193 1245 CAAGAAAGCAAGCUCAUCA UGAUGAGCUUGCUUUCUUGUU 4453 R-008398995-000R 919 1246 CUUGCAUAACCUUUCCCAU AUGGGAAAGGUUAUGCAAGUU 4455 R-008398995-000R 919 1246 CUUGCAUAACCUUUCCCAU B CUUGCAUAACCUUUCCCAUTT B 4454 R-008399001-000F 1727 1247 CUUCACUAUGGACUACCAG CUGGUAGUCCAUAGUGAAGUU 4457 R-008399001-000F 1727 1247 CUUCACUAUGGACUACCAG B CUUCACUAUGGACUACCAGTT B 4456 R-008399004-000G 1883 1248 UUGCUUGUUCGUGCACAUC B UUGCUUGUUCGUGCACAUCTT B 4458 R-008399004-000G 1883 1248 UUGCUUGUUCGUGCACAUC GAUGUGCACGAACAAGCAAUU 4459 R-008399007-000H 859 1249 UAUUGUACGUACCAUGCAG B UAUUGUACGUACCAUGCAGTT B 4460 R-008399007-000H 859 1249 UAUUGUACGUACCAUGCAG CUGCAUGGUACGUACAAUAUU 4461 R-008399010-000P 870 57 CCAUGCAGAAUACAAAUGA B CCAUGCAGAAUACAAAUGATT B 4462 R-008399010-000P 870 57 CCAUGCAGAAUACAAAUGA UCAUUUGUAUUCUGCAUGGUU 4463 R-008399013-000R 1812 1250 GAAAUCUUGCCCUUUGUCC GGACAAAGGGCAAGAUUUCUU 4465 R-008399013-000R 1812 1250 GAAAUCUUGCCCUUUGUCC B GAAAUCUUGCCCUUUGUCCTT B 4464 R-008399016-000S 1605 1251 CUCUUGUGCGUACUGUCCU AGGACAGUACGCACAAGAGUU 4467 R-008399016-000S 1605 1251 CUCUUGUGCGUACUGUCCU B CUCUUGUGCGUACUGUCCUTT B 4466 R-008399019-000T 2021 1252 CACAACCGAAUUGUUAUCA UGAUAACAAUUCGGUUGUGUU 4469 R-008399019-000T 2021 1252 CACAACCGAAUUGUUAUCA B CACAACCGAAUUGUUAUCATT B 4468 R-008399022-000Z 2180 1253 GCUCCUCUGACAGAGUUAC GUAACUCUGUCAGAGGAGCUU 4471 R-008399022-000Z 2180 1253 GCUCCUCUGACAGAGUUAC B GCUCCUCUGACAGAGUUACTT B 4470 R-008399025-000A 636 1254 AGCGUUUGGCUGAACCAUC B AGCGUUUGGCUGAACCAUCTT B 4472 R-008399025-000A 636 1254 AGCGUUUGGCUGAACCAUC GAUGGUUCAGCCAAACGCUUU 4473 R-008399031-000H 871 48 CAUGCAGAAUACAAAUGAU B CAUGCAGAAUACAAAUGAUTT B 4474 R-008399031-000H 871 48 CAUGCAGAAUACAAAUGAU AUCAUUUGUAUUCUGCAUGUU 4475 R-008399034-000J 1801 96 UGGAUUGAUUCGAAAUCUU B UGGAUUGAUUCGAAAUCUUTT B 4476 R-008399034-000J 1801 96 UGGAUUGAUUCGAAAUCUU AAGAUUUCGAAUCAAUCCAUU 4477 R-008399037-000K 2282 1255 AAACGGCUUUCAGUUGAGC GCUCAACUGAAAGCCGUUUUU 4479 R-008399037-000K 2282 1255 AAACGGCUUUCAGUUGAGC B AAACGGCUUUCAGUUGAGCTT B 4478 R-008399040-000S 1824 1256 UUUGUCCCGCAAAUCAUGC GCAUGAUUUGCGGGACAAAUU 4481 R-008399040-000S 1824 1256 UUUGUCCCGCAAAUCAUGC B UUUGUCCCGCAAAUCAUGCTT B 4480 R-008399043-000T 2204 1257 UCUAGGAAUGAAGGUGUGG CCACACCUUCAUUCCUAGAUU 4483 R-008399043-000T 2204 1257 UCUAGGAAUGAAGGUGUGG B UCUAGGAAUGAAGGUGUGGTT B 4482 R-008399046-000U 450 1258 AAGUCCUGUAUGAGUGGGA B AAGUCCUGUAUGAGUGGGATT B 4484 R-008399046-000U 450 1258 AAGUCCUGUAUGAGUGGGA UCCCACUCAUACAGGACUUUU 4485 R-008399049-000V 1001 1259 GGUUCACCAGUGGAUUCUG B GGUUCACCAGUGGAUUCUGTT B 4486 R-008399049-000V 1001 1259 GGUUCACCAGUGGAUUCUG CAGAAUCCACUGGUGAACCUU 4487 R-008399052-000B 1579 1260 GGUCUGCCAAGUGGGUGGU ACCACCCACUUGGCAGACCUU 4489 R-008399052-000B 1579 1260 GGUCUGCCAAGUGGGUGGU B GGUCUGCCAAGUGGGUGGUTT B 4488 R-008399055-000C 2179 1261 AGCUCCUCUGACAGAGUUA UAACUCUGUCAGAGGAGCUUU 4491 R-008399055-000C 2179 1261 AGCUCCUCUGACAGAGUUA B AGCUCCUCUGACAGAGUUATT B 4490 R-008399058-000D 376 1262 UUCUGGUGCCACUACCACA B UUCUGGUGCCACUACCACATT B 4492 R-008399058-000D 376 1262 UUCUGGUGCCACUACCACA UGUGGUAGUGGCACCAGAAUU 4493 R-008399061-000K 556 1263 UGCUAUGUUCCCUGAGACA B UGCUAUGUUCCCUGAGACATT B 4494 R-008399061-000K 556 1263 UGCUAUGUUCCCUGAGACA UGUCUCAGGGAACAUAGCAUU 4495 R-008399064-000L 1804 1264 AUUGAUUCGAAAUCUUGCC B AUUGAUUCGAAAUCUUGCCTT B 4496 R-008399064-000L 1804 1264 AUUGAUUCGAAAUCUUGCC GGCAAGAUUUCGAAUCAAUUU 4497 R-008399067-000M 2552 1265 CUCAUGGAUGGGCUGCCUC B CUCAUGGAUGGGCUGCCUCTT B 4498 R-008399067-000M 2552 1265 CUCAUGGAUGGGCUGCCUC GAGGCAGCCCAUCCAUGAGUU 4499 R-008399070-000U 2071 1266 GCUGCUUUAUUCUCCCAUU B GCUGCUUUAUUCUCCCAUUTT B 4500 R-008399070-000U 2071 1266 GCUGCUUUAUUCUCCCAUU AAUGGGAGAAUAAAGCAGCUU 4501 R-008399073-000V 1145 16 UUCUUGGCUAUUACGACAG B UUCUUGGCUAUUACGACAGTT B 4502 R-008399073-000V 1145 16 UUCUUGGCUAUUACGACAG CUGUCGUAAUAGCCAAGAAUU 4503 R-008399076-000W 1836 1267 AUCAUGCACCUUUGCGUGA UCACGCAAAGGUGCAUGAUUU 4505 R-008399076-000W 1836 1267 AUCAUGCACCUUUGCGUGA B AUCAUGCACCUUUGCGUGATT B 4504 R-008399079-000X 336 1268 GUCACUGGCAGCAACAGUC B GUCACUGGCAGCAACAGUCTT B 4506 R-008399079-000X 336 1268 GUCACUGGCAGCAACAGUC GACUGUUGCUGCCAGUGACUU 4507 R-008399082-000D 460 1269 UGAGUGGGAACAGGGAUUU AAAUCCCUGUUCCCACUCAUU 4509 R-008399082-000D 460 1269 UGAGUGGGAACAGGGAUUU B UGAGUGGGAACAGGGAUUUTT B 4508 R-008399085-000E 1559 1270 AAUUAUAAGAACAAGAUGA B AAUUAUAAGAACAAGAUGATT B 4510 R-008399085-000E 1559 1270 AAUUAUAAGAACAAGAUGA UCAUCUUGUUCUUAUAAUUUU 4511 R-008399091-000M 3136 1271 UGGACAGUUUACCAGUUGC B UGGACAGUUUACCAGUUGCTT B 4512 R-008399091-000M 3136 1271 UGGACAGUUUACCAGUUGC GCAACUGGUAAACUGUCCAUU 4513 R-008399097-000P 1250 1272 AUGAGGACCUAUACUUACG B AUGAGGACCUAUACUUACGTT B 4514 R-008399097-000P 1250 1272 AUGAGGACCUAUACUUACG CGUAAGUAUAGGUCCUCAUUU 4515 R-008399100-000G 1462 1273 GGAAGGUCUCCUUGGGACU B GGAAGGUCUCCUUGGGACUTT B 4516 R-008399100-000G 1462 1273 GGAAGGUCUCCUUGGGACU AGUCCCAAGGAGACCUUCCUU 4517 R-008399103-000H 1965 1274 UGGAAGAAAUAGUUGAAGG B UGGAAGAAAUAGUUGAAGGTT B 4518 R-008399103-000H 1965 1274 UGGAAGAAAUAGUUGAAGG CCUUCAACUAUUUCUUCCAUU 4519 R-008399109-000K 3114 1275 GGUGUUAUUUGGAACCUUG CAAGGUUCCAAAUAACACCUU 4521 R-008399109-000K 3114 1275 GGUGUUAUUUGGAACCUUG B GGUGUUAUUUGGAACCUUGTT B 4520 R-008399112-000S 1665 1276 GUGCUCUUCGUCAUCUGAC B GUGCUCUUCGUCAUCUGACTT B 4522 R-008399112-000S 1665 1276 GUGCUCUUCGUCAUCUGAC GUCAGAUGACGAAGAGCACUU 4523 R-008399115-000T 304 1277 GGCCAUGGAACCAGACAGA UCUGUCUGGUUCCAUGGCCUU 4525 R-008399115-000T 304 1277 GGCCAUGGAACCAGACAGA B GGCCAUGGAACCAGACAGATT B 4524 R-008399118-000U 327 1278 CGGCUGUUAGUCACUGGCA UGCCAGUGACUAACAGCCGUU 4527 R-008399118-000U 327 1278 CGGCUGUUAGUCACUGGCA B CGGCUGUUAGUCACUGGCATT B 4526 R-008399121-000A 1866 1279 UUCCACGACUAGUUCAGUU B UUCCACGACUAGUUCAGUUTT B 4528 R-008399121-000A 1866 1279 UUCCACGACUAGUUCAGUU AACUGAACUAGUCGUGGAAUU 4529 R-008399124-000B 1699 1280 AGCAGAGAUGGCCCAGAAU AUUCUGGGCCAUCUCUGCUUU 4531 R-008399124-000B 1699 1280 AGCAGAGAUGGCCCAGAAU B AGCAGAGAUGGCCCAGAAUTT B 4530 R-008399127-000C 2397 1281 GCCAGGAUGAUCCUAGCUA UAGCUAGGAUCAUCCUGGCUU 4533 R-008399127-000C 2397 1281 GCCAGGAUGAUCCUAGCUA B GCCAGGAUGAUCCUAGCUATT B 4532 R-008399130-000J 1658 1282 GCCAUCUGUGCUCUUCGUC B GCCAUCUGUGCUCUUCGUCTT B 4534 R-008399130-000J 1658 1282 GCCAUCUGUGCUCUUCGUC GACGAAGAGCACAGAUGGCUU 4535 R-008399133-000K 891 1283 UAGAAACAGCUCGUUGUAC GUACAACGAGCUGUUUCUAUU 4537 R-008399133-000K 891 1283 UAGAAACAGCUCGUUGUAC B UAGAAACAGCUCGUUGUACTT B 4536 R-008399136-000L 1572 1284 AGAUGAUGGUCUGCCAAGU B AGAUGAUGGUCUGCCAAGUTT B 4538 R-008399136-000L 1572 1284 AGAUGAUGGUCUGCCAAGU ACUUGGCAGACCAUCAUCUUU 4539 R-008399139-000M 927 1285 ACCUUUCCCAUCAUCGUGA B ACCUUUCCCAUCAUCGUGATT B 4540 R-008399139-000M 927 1285 ACCUUUCCCAUCAUCGUGA UCACGAUGAUGGGAAAGGUUU 4541 R-008399142-000U 290 1286 AUGGAGUUGGACAUGGCCA UGGCCAUGUCCAACUCCAUUU 4543 R-008399142-000U 290 1286 AUGGAGUUGGACAUGGCCA B AUGGAGUUGGACAUGGCCATT B 4542 R-008399145-000V 1663 1287 CUGUGCUCUUCGUCAUCUG CAGAUGACGAAGAGCACAGUU 4545 R-008399145-000V 1663 1287 CUGUGCUCUUCGUCAUCUG B CUGUGCUCUUCGUCAUCUGTT B 4544 R-008399148-000W 1562 1288 UAUAAGAACAAGAUGAUGG B UAUAAGAACAAGAUGAUGGTT B 4546 R-008399148-000W 1562 1288 UAUAAGAACAAGAUGAUGG CCAUCAUCUUGUUCUUAUAUU 4547 R-008399154-000D 2947 1289 UCUGAAUAAAGUGUAACAA UUGUUACACUUUAUUCAGAUU 4549 R-008399154-000D 2947 1289 UCUGAAUAAAGUGUAACAA B UCUGAAUAAAGUGUAACAATT B 4548 R-008399157-000E 1711 1290 CCAGAAUGCAGUUCGCCUU AAGGCGAACUGCAUUCUGGUU 4551 R-008399157-000E 1711 1290 CCAGAAUGCAGUUCGCCUU B CCAGAAUGCAGUUCGCCUUTT B 4550 R-008399160-000L 1566 1291 AGAACAAGAUGAUGGUCUG B AGAACAAGAUGAUGGUCUGTT B 4552 R-008399160-000L 1566 1291 AGAACAAGAUGAUGGUCUG CAGACCAUCAUCUUGUUCUUU 4553 R-008399163-000M 1815 1292 AUCUUGCCCUUUGUCCCGC GCGGGACAAAGGGCAAGAUUU 4555 R-008399163-000M 1815 1292 AUCUUGCCCUUUGUCCCGC B AUCUUGCCCUUUGUCCCGCTT B 4554 R-008399166-000N 1087 1293 GCGUUUAGCUGGUGGGCUG CAGCCCACCAGCUAAACGCUU 4557 R-008399166-000N 1087 1293 GCGUUUAGCUGGUGGGCUG B GCGUUUAGCUGGUGGGCUGTT B 4556 R-008399169-000P 1495 1294 GGGUUCAGAUGAUAUAAAU B GGGUUCAGAUGAUAUAAAUTT B 4558 R-008399169-000P 1495 1294 GGGUUCAGAUGAUAUAAAU AUUUAUAUCAUCUGAACCCUU 4559 R-008399172-000W 1363 1295 UUUAGGACUUCACCUGACA B UUUAGGACUUCACCUGACATT B 4560 R-008399172-000W 1363 1295 UUUAGGACUUCACCUGACA UGUCAGGUGAAGUCCUAAAUU 4561 R-008399175-000X 391 1296 CACAGCUCCUUCUCUGAGU ACUCAGAGAAGGAGCUGUGUU 4563 R-008399175-000X 391 1296 CACAGCUCCUUCUCUGAGU B CACAGCUCCUUCUCUGAGUTT B 4562 R-008399178-000Y 1392 1297 AACGUCUUGUUCAGAACUG CAGUUCUGAACAAGACGUUUU 4565 R-008399178-000Y 1392 1297 AACGUCUUGUUCAGAACUG B AACGUCUUGUUCAGAACUGTT B 4564 R-008399181-000E 1935 1298 CACAGCAGCAAUUUGUGGA B CACAGCAGCAAUUUGUGGATT B 4566 R-008399181-000E 1935 1298 CACAGCAGCAAUUUGUGGA UCCACAAAUUGCUGCUGUGUU 4567 R-008399184-000F 1872 1299 GACUAGUUCAGUUGCUUGU B GACUAGUUCAGUUGCUUGUTT B 4568 R-008399184-000F 1872 1299 GACUAGUUCAGUUGCUUGU ACAAGCAACUGAACUAGUCUU 4569 R-008399187-000G 1159 1300 GACAGACUGCCUUCAAAUU AAUUUGAAGGCAGUCUGUCUU 4571 R-008399187-000G 1159 1300 GACAGACUGCCUUCAAAUU B GACAGACUGCCUUCAAAUUTT B 4570 R-008399190-000N 2308 1301 CUCUCUCUUCAGAACAGAG CUCUGUUCUGAAGAGAGAGUU 4573 R-008399190-000N 2308 1301 CUCUCUCUUCAGAACAGAG B CUCUCUCUUCAGAACAGAGTT B 4572 R-008399193-000P 632 1302 GUCCAGCGUUUGGCUGAAC GUUCAGCCAAACGCUGGACUU 4575 R-008399193-000P 632 1302 GUCCAGCGUUUGGCUGAAC B GUCCAGCGUUUGGCUGAACTT B 4574 R-008399196-000R 580 173 UGAGGGCAUGCAGAUCCCA B UGAGGGCAUGCAGAUCCCATT B 4576 R-008399196-000R 580 173 UGAGGGCAUGCAGAUCCCA UGGGAUCUGCAUGCCCUCAUU 4577 R-008399199-000S 1564 1303 UAAGAACAAGAUGAUGGUC B UAAGAACAAGAUGAUGGUCTT B 4578 R-008399199-000S 1564 1303 UAAGAACAAGAUGAUGGUC GACCAUCAUCUUGUUCUUAUU 4579 R-008399202-000J 1384 1304 UCCAAGUCAACGUCUUGUU B UCCAAGUCAACGUCUUGUUTT B 4580 R-008399202-000J 1384 1304 UCCAAGUCAACGUCUUGUU AACAAGACGUUGACUUGGAUU 4581 R-008399205-000K 1690 1305 ACACCAAGAAGCAGAGAUG B ACACCAAGAAGCAGAGAUGTT B 4582 R-008399205-000K 1690 1305 ACACCAAGAAGCAGAGAUG CAUCUCUGCUUCUUGGUGUUU 4583 R-008399208-000L 1421 1306 CUCAGGAAUCUUUCAGAUG B CUCAGGAAUCUUUCAGAUGTT B 4584 R-008399208-000L 1421 1306 CUCAGGAAUCUUUCAGAUG CAUCUGAAAGAUUCCUGAGUU 4585 R-008399211-000T 1141 1307 UAAAUUCUUGGCUAUUACG B UAAAUUCUUGGCUAUUACGTT B 4586 R-008399211-000T 1141 1307 UAAAUUCUUGGCUAUUACG CGUAAUAGCCAAGAAUUUAUU 4587 R-008399214-000U 1732 1308 CUAUGGACUACCAGUUGUG B CUAUGGACUACCAGUUGUGTT B 4588 R-008399214-000U 1732 1308 CUAUGGACUACCAGUUGUG CACAACUGGUAGUCCAUAGUU 4589 R-008399217-000V 634 1309 CCAGCGUUUGGCUGAACCA B CCAGCGUUUGGCUGAACCATT B 4590 R-008399217-000V 634 1309 CCAGCGUUUGGCUGAACCA UGGUUCAGCCAAACGCUGGUU 4591 R-008399220-000B 932 1310 UCCCAUCAUCGUGAGGGCU B UCCCAUCAUCGUGAGGGCUTT B 4592 R-008399220-000B 932 1310 UCCCAUCAUCGUGAGGGCU AGCCCUCACGAUGAUGGGAUU 4593 R-008399223-000C 579 171 AUGAGGGCAUGCAGAUCCC GGGAUCUGCAUGCCCUCAUUU 4595 R-008399223-000C 579 171 AUGAGGGCAUGCAGAUCCC B AUGAGGGCAUGCAGAUCCCTT B 4594 R-008399226-000D 1366 1311 AGGACUUCACCUGACAGAU AUCUGUCAGGUGAAGUCCUUU 4597 R-008399226-000D 1366 1311 AGGACUUCACCUGACAGAU B AGGACUUCACCUGACAGAUTT B 4596 R-008399229-000E 1608 1312 UUGUGCGUACUGUCCUUCG B UUGUGCGUACUGUCCUUCGTT B 4598 R-008399229-000E 1608 1312 UUGUGCGUACUGUCCUUCG CGAAGGACAGUACGCACAAUU 4599 R-008399232-000L 814 10 AGCUUCCAGACACGCUAUC GAUAGCGUGUCUGGAAGCUUU 4601 R-008399232-000L 814 10 AGCUUCCAGACACGCUAUC B AGCUUCCAGACACGCUAUCTT B 4600 R-008399235-000M 1923 1313 CCAUGGGUGGGACACAGCA B CCAUGGGUGGGACACAGCATT B 4602 R-008399235-000M 1923 1313 CCAUGGGUGGGACACAGCA UGCUGUGUCCCACCCAUGGUU 4603 R-008399238-000N 1458 1314 GGAUGGAAGGUCUCCUUGG CCAAGGAGACCUUCCAUCCUU 4605 R-008399238-000N 1458 1314 GGAUGGAAGGUCUCCUUGG B GGAUGGAAGGUCUCCUUGGTT B 4604 R-008399241-000V 1908 1315 CCCAGCGCCGUACGUCCAU B CCCAGCGCCGUACGUCCAUTT B 4606 R-008399241-000V 1908 1315 CCCAGCGCCGUACGUCCAU AUGGACGUACGGCGCUGGGUU 4607 R-008399244-000W 539 1316 GCUCAGAGGGUACGAGCUG CAGCUCGUACCCUCUGAGCUU 4609 R-008399244-000W 539 1316 GCUCAGAGGGUACGAGCUG B GCUCAGAGGGUACGAGCUGTT B 4608 R-008399247-000X 2016 1317 AUGUUCACAACCGAAUUGU ACAAUUCGGUUGUGAACAUUU 4611 R-008399247-000X 2016 1317 AUGUUCACAACCGAAUUGU B AUGUUCACAACCGAAUUGUTT B 4610 R-008399250-000D 1884 1318 UGCUUGUUCGUGCACAUCA B UGCUUGUUCGUGCACAUCATT B 4612 R-008399250-000D 1884 1318 UGCUUGUUCGUGCACAUCA UGAUGUGCACGAACAAGCAUU 4613 R-008399253-000E 560 1319 AUGUUCCCUGAGACAUUAG B AUGUUCCCUGAGACAUUAGTT B 4614 R-008399253-000E 560 1319 AUGUUCCCUGAGACAUUAG CUAAUGUCUCAGGGAACAUUU 4615 R-008399256-000F 411 1320 GUAAAGGCAAUCCUGAGGA UCCUCAGGAUUGCCUUUACUU 4617 R-008399256-000F 411 1320 GUAAAGGCAAUCCUGAGGA B GUAAAGGCAAUCCUGAGGATT B 4616 R-008399259-000G 338 1321 CACUGGCAGCAACAGUCUU AAGACUGUUGCUGCCAGUGUU 4619 R-008399259-000G 338 1321 CACUGGCAGCAACAGUCUU B CACUGGCAGCAACAGUCUUTT B 4618 R-008399262-000N 830 1322 AUCAUGCGUUCUCCUCAGA UCUGAGGAGAACGCAUGAUUU 4621 R-008399262-000N 830 1322 AUCAUGCGUUCUCCUCAGA B AUCAUGCGUUCUCCUCAGATT B 4620 R-008399265-000P 3086 1323 UAUGUAUGGGUAGGGUAAA B UAUGUAUGGGUAGGGUAAATT B 4622 R-008399265-000P 3086 1323 UAUGUAUGGGUAGGGUAAA UUUACCCUACCCAUACAUAUU 4623 R-008399268-000R 3115 1324 GUGUUAUUUGGAACCUUGU ACAAGGUUCCAAAUAACACUU 4625 R-008399268-000R 3115 1324 GUGUUAUUUGGAACCUUGU B GUGUUAUUUGGAACCUUGUTT B 4624 R-008399271-000X 2177 1325 ACAGCUCCUCUGACAGAGU B ACAGCUCCUCUGACAGAGUTT B 4626 R-008399271-000X 2177 1325 ACAGCUCCUCUGACAGAGU ACUCUGUCAGAGGAGCUGUUU 4627 R-008399274-000Y 1733 1326 UAUGGACUACCAGUUGUGG B UAUGGACUACCAGUUGUGGTT B 4628 R-008399274-000Y 1733 1326 UAUGGACUACCAGUUGUGG CCACAACUGGUAGUCCAUAUU 4629 R-008399277-000Z 375 1327 AUUCUGGUGCCACUACCAC GUGGUAGUGGCACCAGAAUUU 4631 R-008399277-000Z 375 1327 AUUCUGGUGCCACUACCAC B AUUCUGGUGCCACUACCACTT B 4630 R-008399280-000F 2565 1328 UGCCUCCAGGUGACAGCAA B UGCCUCCAGGUGACAGCAATT B 4632 R-008399280-000F 2565 1328 UGCCUCCAGGUGACAGCAA UUGCUGUCACCUGGAGGCAUU 4633 R-008399283-000G 442 1329 UACCUCCCAAGUCCUGUAU AUACAGGACUUGGGAGGUAUU 4635 R-008399283-000G 442 1329 UACCUCCCAAGUCCUGUAU B UACCUCCCAAGUCCUGUAUTT B 4634 R-008399286-000H 819 1330 CCAGACACGCUAUCAUGCG CGCAUGAUAGCGUGUCUGGUU 4637 R-008399286-000H 819 1330 CCAGACACGCUAUCAUGCG B CCAGACACGCUAUCAUGCGTT B 4636 R-008399289-000J 700 1331 UGAUGCAGAACUUGCCACA B UGAUGCAGAACUUGCCACATT B 4638 R-008399289-000J 700 1331 UGAUGCAGAACUUGCCACA UGUGGCAAGUUCUGCAUCAUU 4639 R-008399292-000R 1089 1332 GUUUAGCUGGUGGGCUGCA B GUUUAGCUGGUGGGCUGCATT B 4640 R-008399292-000R 1089 1332 GUUUAGCUGGUGGGCUGCA UGCAGCCCACCAGCUAAACUU 4641 R-008399295-000S 1580 1333 GUCUGCCAAGUGGGUGGUA UACCACCCACUUGGCAGACUU 4643 R-008399295-000S 1580 1333 GUCUGCCAAGUGGGUGGUA B GUCUGCCAAGUGGGUGGUATT B 4642 R-008399298-000T 1982 1334 GGUUGUACCGGAGCCCUUC GAAGGGCUCCGGUACAACCUU 4645 R-008399298-000T 1982 1334 GGUUGUACCGGAGCCCUUC B GGUUGUACCGGAGCCCUUCTT B 4644 R-008399301-000K 1986 1335 GUACCGGAGCCCUUCACAU B GUACCGGAGCCCUUCACAUTT B 4646 R-008399301-000K 1986 1335 GUACCGGAGCCCUUCACAU AUGUGAAGGGCUCCGGUACUU 4647 R-008399304-000L 418 1336 CAAUCCUGAGGAAGAGGAU AUCCUCUUCCUCAGGAUUGUU 4649 R-008399304-000L 418 1336 CAAUCCUGAGGAAGAGGAU B CAAUCCUGAGGAAGAGGAUTT B 4648 R-008399307-000M 1306 1337 GCUAUCUGUCUGCUCUAGU ACUAGAGCAGACAGAUAGCUU 4651 R-008399307-000M 1306 1337 GCUAUCUGUCUGCUCUAGU B GCUAUCUGUCUGCUCUAGUTT B 4650 R-008399310-000U 1377 1338 UGACAGAUCCAAGUCAACG CGUUGACUUGGAUCUGUCAUU 4653 R-008399310-000U 1377 1338 UGACAGAUCCAAGUCAACG B UGACAGAUCCAAGUCAACGTT B 4652 R-008399313-000V 2467 1339 CAUGAUGGAACAUGAGAUG CAUCUCAUGUUCCAUCAUGUU 4655 R-008399313-000V 2467 1339 CAUGAUGGAACAUGAGAUG B CAUGAUGGAACAUGAGAUGTT B 4654 R-008399316-000W 1414 1340 UUGGACUCUCAGGAAUCUU B UUGGACUCUCAGGAAUCUUTT B 4656 R-008399316-000W 1414 1340 UUGGACUCUCAGGAAUCUU AAGAUUCCUGAGAGUCCAAUU 4657 R-008399319-000X 1668 1341 CUCUUCGUCAUCUGACCAG B CUCUUCGUCAUCUGACCAGTT B 4658 R-008399319-000X 1668 1341 CUCUUCGUCAUCUGACCAG CUGGUCAGAUGACGAAGAGUU 4659 R-008399322-000D 1818 1342 UUGCCCUUUGUCCCGCAAA B UUGCCCUUUGUCCCGCAAATT B 4660 R-008399322-000D 1818 1342 UUGCCCUUUGUCCCGCAAA UUUGCGGGACAAAGGGCAAUU 4661 R-008399325-000E 1697 1343 GAAGCAGAGAUGGCCCAGA B GAAGCAGAGAUGGCCCAGATT B 4662 R-008399325-000E 1697 1343 GAAGCAGAGAUGGCCCAGA UCUGGGCCAUCUCUGCUUCUU 4663 R-008399328-000F 918 1344 CCUUGCAUAACCUUUCCCA B CCUUGCAUAACCUUUCCCATT B 4664 R-008399328-000F 918 1344 CCUUGCAUAACCUUUCCCA UGGGAAAGGUUAUGCAAGGUU 4665 R-008399331-000M 605 1345 CAGUUUGAUGCUGCUCAUC GAUGAGCAGCAUCAAACUGUU 4667 R-008399331-000M 605 1345 CAGUUUGAUGCUGCUCAUC B CAGUUUGAUGCUGCUCAUCTT B 4666 R-008399334-000N 1374 1346 ACCUGACAGAUCCAAGUCA B ACCUGACAGAUCCAAGUCATT B 4668 R-008399334-000N 1374 1346 ACCUGACAGAUCCAAGUCA UGACUUGGAUCUGUCAGGUUU 4669 R-008399337-000P 1430 1347 CUUUCAGAUGCUGCAACUA UAGUUGCAGCAUCUGAAAGUU 4671 R-008399337-000P 1430 1347 CUUUCAGAUGCUGCAACUA B CUUUCAGAUGCUGCAACUATT B 4670 R-008399340-000W 3186 1348 GAUACGAUGCUUCAAGAGA UCUCUUGAAGCAUCGUAUCUU 4673 R-008399340-000W 3186 1348 GAUACGAUGCUUCAAGAGA B GAUACGAUGCUUCAAGAGATT B 4672 R-008399343-000X 1355 1349 AUGCAAGCUUUAGGACUUC B AUGCAAGCUUUAGGACUUCTT B 4674 R-008399343-000X 1355 1349 AUGCAAGCUUUAGGACUUC GAAGUCCUAAAGCUUGCAUUU 4675 R-008399346-000Y 433 1350 GGAUGUGGAUACCUCCCAA UUGGGAGGUAUCCACAUCCUU 4677 R-008399346-000Y 433 1350 GGAUGUGGAUACCUCCCAA B GGAUGUGGAUACCUCCCAATT B 4676 R-008399349-000Z 1901 13 CAGGAUACCCAGCGCCGUA B CAGGAUACCCAGCGCCGUATT B 4678 R-008399349-000Z 1901 13 CAGGAUACCCAGCGCCGUA UACGGCGCUGGGUAUCCUGUU 4679 R-008399352-000F 1713 1351 AGAAUGCAGUUCGCCUUCA UGAAGGCGAACUGCAUUCUUU 4681 R-008399352-000F 1713 1351 AGAAUGCAGUUCGCCUUCA B AGAAUGCAGUUCGCCUUCATT B 4680 R-008399355-000G 823 17 ACACGCUAUCAUGCGUUCU AGAACGCAUGAUAGCGUGUUU 4683 R-008399355-000G 823 17 ACACGCUAUCAUGCGUUCU B ACACGCUAUCAUGCGUUCUTT B 4682 R-008399358-000H 1811 1352 CGAAAUCUUGCCCUUUGUC B CGAAAUCUUGCCCUUUGUCTT B 4684 R-008399358-000H 1811 1352 CGAAAUCUUGCCCUUUGUC GACAAAGGGCAAGAUUUCGUU 4685 R-008399361-000P 491 1353 ACUCAAGAACAAGUAGCUG B ACUCAAGAACAAGUAGCUGTT B 4686 R-008399361-000P 491 1353 ACUCAAGAACAAGUAGCUG CAGCUACUUGUUCUUGAGUUU 4687 R-008399364-000R 2209 1354 GAAUGAAGGUGUGGCGACA UGUCGCCACACCUUCAUUCUU 4689 R-008399364-000R 2209 1354 GAAUGAAGGUGUGGCGACA B GAAUGAAGGUGUGGCGACATT B 4688 R-008399367-000S 1840 1355 UGCACCUUUGCGUGAGCAG B UGCACCUUUGCGUGAGCAGTT B 4690 R-008399367-000S 1840 1355 UGCACCUUUGCGUGAGCAG CUGCUCACGCAAAGGUGCAUU 4691 R-008399370-000Y 550 1356 ACGAGCUGCUAUGUUCCCU AGGGAACAUAGCAGCUCGUUU 4693 R-008399370-000Y 550 1356 ACGAGCUGCUAUGUUCCCU B ACGAGCUGCUAUGUUCCCUTT B 4692 R-008399373-000Z 429 1357 AAGAGGAUGUGGAUACCUC GAGGUAUCCACAUCCUCUUUU 4695 R-008399373-000Z 429 1357 AAGAGGAUGUGGAUACCUC B AAGAGGAUGUGGAUACCUCTT B 4694 R-008399376-000A 2436 1358 GAUAUGGCCAGGAUGCCUU AAGGCAUCCUGGCCAUAUCUU 4697 R-008399376-000A 2436 1358 GAUAUGGCCAGGAUGCCUU B GAUAUGGCCAGGAUGCCUUTT B 4696 R-008399379-000B 1597 1359 UAUAGAGGCUCUUGUGCGU B UAUAGAGGCUCUUGUGCGUTT B 4698 R-008399379-000B 1597 1359 UAUAGAGGCUCUUGUGCGU ACGCACAAGAGCCUCUAUAUU 4699 R-008399382-000H 1496 1360 GGUUCAGAUGAUAUAAAUG B GGUUCAGAUGAUAUAAAUGTT B 4700 R-008399382-000H 1496 1360 GGUUCAGAUGAUAUAAAUG CAUUUAUAUCAUCUGAACCUU 4701 R-008399385-000J 1456 1361 AGGGAUGGAAGGUCUCCUU AAGGAGACCUUCCAUCCCUUU 4703 R-008399385-000J 1456 1361 AGGGAUGGAAGGUCUCCUU B AGGGAUGGAAGGUCUCCUUTT B 4702 R-008399388-000K 3159 1362 UAUCCCAAAGUUGUUGUAA UUACAACAACUUUGGGAUAUU 4705 R-008399388-000K 3159 1362 UAUCCCAAAGUUGUUGUAA B UAUCCCAAAGUUGUUGUAATT B 4704 R-008399391-000S 2309 1363 UCUCUCUUCAGAACAGAGC B UCUCUCUUCAGAACAGAGCTT B 4706 R-008399391-000S 2309 1363 UCUCUCUUCAGAACAGAGC GCUCUGUUCUGAAGAGAGAUU 4707 R-008399394-000T 2300 1364 CUGACCAGCUCUCUCUUCA B CUGACCAGCUCUCUCUUCATT B 4708 R-008399394-000T 2300 1364 CUGACCAGCUCUCUCUUCA UGAAGAGAGAGCUGGUCAGUU 4709 R-008399397-000U 3177 1365 ACCUGCUGUGAUACGAUGC B ACCUGCUGUGAUACGAUGCTT B 4710 R-008399397-000U 3177 1365 ACCUGCUGUGAUACGAUGC GCAUCGUAUCACAGCAGGUUU 4711 R-008399400-000L 1079 1366 AUGGCAGUGCGUUUAGCUG B AUGGCAGUGCGUUUAGCUGTT B 4712 R-008399400-000L 1079 1366 AUGGCAGUGCGUUUAGCUG CAGCUAAACGCACUGCCAUUU 4713 R-008399403-000M 1383 1367 AUCCAAGUCAACGUCUUGU ACAAGACGUUGACUUGGAUUU 4715 R-008399403-000M 1383 1367 AUCCAAGUCAACGUCUUGU B AUCCAAGUCAACGUCUUGUTT B 4714 R-008399406-000N 2563 1368 GCUGCCUCCAGGUGACAGC GCUGUCACCUGGAGGCAGCUU 4717 R-008399406-000N 2563 1368 GCUGCCUCCAGGUGACAGC B GCUGCCUCCAGGUGACAGCTT B 4716 R-008399409-000P 1084 1369 AGUGCGUUUAGCUGGUGGG B AGUGCGUUUAGCUGGUGGGTT B 4718 R-008399409-000P 1084 1369 AGUGCGUUUAGCUGGUGGG CCCACCAGCUAAACGCACUUU 4719 R-008399412-000W 1329 1370 AGCCGGCUAUUGUAGAAGC B AGCCGGCUAUUGUAGAAGCTT B 4720 R-008399412-000W 1329 1370 AGCCGGCUAUUGUAGAAGC GCUUCUACAAUAGCCGGCUUU 4721 R-008399415-000X 1662 169 UCUGUGCUCUUCGUCAUCU AGAUGACGAAGAGCACAGAUU 4723 R-008399415-000X 1662 169 UCUGUGCUCUUCGUCAUCU B UCUGUGCUCUUCGUCAUCUTT B 4722 R-008399418-000Y 2268 99 CACAAGAUUACAAGAAACG CGUUUCUUGUAAUCUUGUGUU 4725 R-008399418-000Y 2268 99 CACAAGAUUACAAGAAACG B CACAAGAUUACAAGAAACGTT B 4724 R-008399421-000E 2470 108 GAUGGAACAUGAGAUGGGU B GAUGGAACAUGAGAUGGGUTT B 4726 R-008399421-000E 2470 108 GAUGGAACAUGAGAUGGGU ACCCAUCUCAUGUUCCAUCUU 4727 R-008399424-000F 573 1371 CAUUAGAUGAGGGCAUGCA B CAUUAGAUGAGGGCAUGCATT B 4728 R-008399424-000F 573 1371 CAUUAGAUGAGGGCAUGCA UGCAUGCCCUCAUCUAAUGUU 4729 R-008399427-000G 2213 1372 GAAGGUGUGGCGACAUAUG B GAAGGUGUGGCGACAUAUGTT B 4730 R-008399427-000G 2213 1372 GAAGGUGUGGCGACAUAUG CAUAUGUCGCCACACCUUCUU 4731 R-008399430-000N 1587 1373 AAGUGGGUGGUAUAGAGGC B AAGUGGGUGGUAUAGAGGCTT B 4732 R-008399430-000N 1587 1373 AAGUGGGUGGUAUAGAGGC GCCUCUAUACCACCCACUUUU 4733 R-008399433-000P 2166 1374 CUGAGGGAGCCACAGCUCC B CUGAGGGAGCCACAGCUCCTT B 4734 R-008399433-000P 2166 1374 CUGAGGGAGCCACAGCUCC GGAGCUGUGGCUCCCUCAGUU 4735 R-008399436-000R 637 1375 GCGUUUGGCUGAACCAUCA UGAUGGUUCAGCCAAACGCUU 4737 R-008399436-000R 637 1375 GCGUUUGGCUGAACCAUCA B GCGUUUGGCUGAACCAUCATT B 4736 R-008399439-000S 397 1376 UCCUUCUCUGAGUGGUAAA B UCCUUCUCUGAGUGGUAAATT B 4738 R-008399439-000S 397 1376 UCCUUCUCUGAGUGGUAAA UUUACCACUCAGAGAAGGAUU 4739 R-008399442-000Y 1718 1377 GCAGUUCGCCUUCACUAUG B GCAGUUCGCCUUCACUAUGTT B 4740 R-008399442-000Y 1718 1377 GCAGUUCGCCUUCACUAUG CAUAGUGAAGGCGAACUGCUU 4741 R-008399445-000Z 1415 111 UGGACUCUCAGGAAUCUUU B UGGACUCUCAGGAAUCUUUTT B 4742 R-008399445-000Z 1415 111 UGGACUCUCAGGAAUCUUU AAAGAUUCCUGAGAGUCCAUU 4743 R-008399448-000A 1413 162 UUUGGACUCUCAGGAAUCU B UUUGGACUCUCAGGAAUCUTT B 4744 R-008399448-000A 1413 162 UUUGGACUCUCAGGAAUCU AGAUUCCUGAGAGUCCAAAUU 4745 R-008399451-000G 2445 160 AGGAUGCCUUGGGUAUGGA B AGGAUGCCUUGGGUAUGGATT B 4746 R-008399451-000G 2445 160 AGGAUGCCUUGGGUAUGGA UCCAUACCCAAGGCAUCCUUU 4747 R-008399454-000H 567 157 CUGAGACAUUAGAUGAGGG B CUGAGACAUUAGAUGAGGGTT B 4748 R-008399454-000H 567 157 CUGAGACAUUAGAUGAGGG CCCUCAUCUAAUGUCUCAGUU 4749 R-008399457-000J 1498 86 UUCAGAUGAUAUAAAUGUG CACAUUUAUAUCAUCUGAAUU 4751 R-008399457-000J 1498 86 UUCAGAUGAUAUAAAUGUG B UUCAGAUGAUAUAAAUGUGTT B 4750 R-008399460-000R 2357 1378 GGACUUGAUAUUGGUGCCC B GGACUUGAUAUUGGUGCCCTT B 4752 R-008399460-000R 2357 1378 GGACUUGAUAUUGGUGCCC GGGCACCAAUAUCAAGUCCUU 4753 R-008399463-000S 639 1379 GUUUGGCUGAACCAUCACA UGUGAUGGUUCAGCCAAACUU 4755 R-008399463-000S 639 1379 GUUUGGCUGAACCAUCACA B GUUUGGCUGAACCAUCACATT B 4754 R-008399466-000T 585 1380 GCAUGCAGAUCCCAUCUAC GUAGAUGGGAUCUGCAUGCUU 4757 R-008399466-000T 585 1380 GCAUGCAGAUCCCAUCUAC B GCAUGCAGAUCCCAUCUACTT B 4756 R-008399469-000U 2519 1381 GAUGGGCUGCCAGAUCUGG B GAUGGGCUGCCAGAUCUGGTT B 4758 R-008399469-000U 2519 1381 GAUGGGCUGCCAGAUCUGG CCAGAUCUGGCAGCCCAUCUU 4759 R-008399472-000A 1367 1382 GGACUUCACCUGACAGAUC B GGACUUCACCUGACAGAUCTT B 4760 R-008399472-000A 1367 1382 GGACUUCACCUGACAGAUC GAUCUGUCAGGUGAAGUCCUU 4761 R-008399475-000B 1391 1383 CAACGUCUUGUUCAGAACU B CAACGUCUUGUUCAGAACUTT B 4762 R-008399475-000B 1391 1383 CAACGUCUUGUUCAGAACU AGUUCUGAACAAGACGUUGUU 4763 R-008399478-000C 509 1384 GAUAUUGAUGGACAGUAUG B GAUAUUGAUGGACAGUAUGTT B 4764 R-008399478-000C 509 1384 GAUAUUGAUGGACAGUAUG CAUACUGUCCAUCAAUAUCUU 4765 R-008399481-000J 303 1385 UGGCCAUGGAACCAGACAG B UGGCCAUGGAACCAGACAGTT B 4766 R-008399481-000J 303 1385 UGGCCAUGGAACCAGACAG CUGUCUGGUUCCAUGGCCAUU 4767 R-008399484-000K 494 1386 CAAGAACAAGUAGCUGAUA UAUCAGCUACUUGUUCUUGUU 4769 R-008399484-000K 494 1386 CAAGAACAAGUAGCUGAUA B CAAGAACAAGUAGCUGAUATT B 4768 R-008399487-000L 328 1387 GGCUGUUAGUCACUGGCAG CUGCCAGUGACUAACAGCCUU 4771 R-008399487-000L 328 1387 GGCUGUUAGUCACUGGCAG B GGCUGUUAGUCACUGGCAGTT B 4770 R-008399490-000T 2058 1388 CAUUGUUUGUGCAGCUGCU AGCAGCUGCACAAACAAUGUU 4773 R-008399490-000T 2058 1388 CAUUGUUUGUGCAGCUGCU B CAUUGUUUGUGCAGCUGCUTT B 4772 R-008399493-000U 1447 1389 UAAACAGGAAGGGAUGGAA B UAAACAGGAAGGGAUGGAATT B 4774 R-008399493-000U 1447 1389 UAAACAGGAAGGGAUGGAA UUCCAUCCCUUCCUGUUUAUU 4775 R-008399496-000V 1563 1390 AUAAGAACAAGAUGAUGGU ACCAUCAUCUUGUUCUUAUUU 4777 R-008399496-000V 1563 1390 AUAAGAACAAGAUGAUGGU B AUAAGAACAAGAUGAUGGUTT B 4776 R-008399499-000W 1350 1391 GUGGAAUGCAAGCUUUAGG CCUAAAGCUUGCAUUCCACUU 4779 R-008399499-000W 1350 1391 GUGGAAUGCAAGCUUUAGG B GUGGAAUGCAAGCUUUAGGTT B 4778 R-008399502-000N 2208 1392 GGAAUGAAGGUGUGGCGAC GUCGCCACACCUUCAUUCCUU 4781 R-008399502-000N 2208 1392 GGAAUGAAGGUGUGGCGAC B GGAAUGAAGGUGUGGCGACTT B 4780 R-008399505-000P 1689 1393 GACACCAAGAAGCAGAGAU AUCUCUGCUUCUUGGUGUCUU 4783 R-008399505-000P 1689 1393 GACACCAAGAAGCAGAGAU B GACACCAAGAAGCAGAGAUTT B 4782 R-008399508-000R 1407 1394 ACUGUCUUUGGACUCUCAG B ACUGUCUUUGGACUCUCAGTT B 4784 R-008399508-000R 1407 1394 ACUGUCUUUGGACUCUCAG CUGAGAGUCCAAAGACAGUUU 4785 R-008399511-000X 2137 1395 GGACAAGGAAGCUGCAGAA B GGACAAGGAAGCUGCAGAATT B 4786 R-008399511-000X 2137 1395 GGACAAGGAAGCUGCAGAA UUCUGCAGCUUCCUUGUCCUU 4787 R-008399514-000Y 854 1396 UCUGCUAUUGUACGUACCA B UCUGCUAUUGUACGUACCATT B 4788 R-008399514-000Y 854 1396 UCUGCUAUUGUACGUACCA UGGUACGUACAAUAGCAGAUU 4789 R-008399517-000Z 2070 1397 AGCUGCUUUAUUCUCCCAU AUGGGAGAAUAAAGCAGCUUU 4791 R-008399517-000Z 2070 1397 AGCUGCUUUAUUCUCCCAU B AGCUGCUUUAUUCUCCCAUTT B 4790 R-008399520-000F 545 1398 AGGGUACGAGCUGCUAUGU ACAUAGCAGCUCGUACCCUUU 4793 R-008399520-000F 545 1398 AGGGUACGAGCUGCUAUGU B AGGGUACGAGCUGCUAUGUTT B 4792 R-008399523-000G 1640 1399 GAAGACAUCACUGAGCCUG B GAAGACAUCACUGAGCCUGTT B 4794 R-008399523-000G 1640 1399 GAAGACAUCACUGAGCCUG CAGGCUCAGUGAUGUCUUCUU 4795 R-008399526-000H 2012 1400 CGGGAUGUUCACAACCGAA UUCGGUUGUGAACAUCCCGUU 4797 R-008399526-000H 2012 1400 CGGGAUGUUCACAACCGAA B CGGGAUGUUCACAACCGAATT B 4796 R-008399529-000J 1684 1401 CAGCCGACACCAAGAAGCA B CAGCCGACACCAAGAAGCATT B 4798 R-008399529-000J 1684 1401 CAGCCGACACCAAGAAGCA UGCUUCUUGGUGUCGGCUGUU 4799 R-008399535-000S 520 9 ACAGUAUGCAAUGACUCGA UCGAGUCAUUGCAUACUGUUU 4801 R-008399535-000S 520 9 ACAGUAUGCAAUGACUCGA B ACAGUAUGCAAUGACUCGATT B 4800 R-008399538-000T 1969 182 AGAAAUAGUUGAAGGUUGU B AGAAAUAGUUGAAGGUUGUTT B 4802 R-008399538-000T 1969 182 AGAAAUAGUUGAAGGUUGU ACAACCUUCAACUAUUUCUUU 4803 R-008399541-000Z 2017 1402 UGUUCACAACCGAAUUGUU B UGUUCACAACCGAAUUGUUTT B 4804 R-008399541-000Z 2017 1402 UGUUCACAACCGAAUUGUU AACAAUUCGGUUGUGAACAUU 4805 R-008399544-000A 2307 1403 GCUCUCUCUUCAGAACAGA B GCUCUCUCUUCAGAACAGATT B 4806 R-008399544-000A 2307 1403 GCUCUCUCUUCAGAACAGA UCUGUUCUGAAGAGAGAGCUU 4807 R-008399547-000B 844 1404 UCAGAUGGUGUCUGCUAUU B UCAGAUGGUGUCUGCUAUUTT B 4808 R-008399547-000B 844 1404 UCAGAUGGUGUCUGCUAUU AAUAGCAGACACCAUCUGAUU 4809 R-008399550-000H 405 1405 UGAGUGGUAAAGGCAAUCC GGAUUGCCUUUACCACUCAUU 4811 R-008399550-000H 405 1405 UGAGUGGUAAAGGCAAUCC B UGAGUGGUAAAGGCAAUCCTT B 4810 R-008399553-000J 379 1406 UGGUGCCACUACCACAGCU B UGGUGCCACUACCACAGCUTT B 4812 R-008399553-000J 379 1406 UGGUGCCACUACCACAGCU AGCUGUGGUAGUGGCACCAUU 4813 R-008399556-000K 1825 1407 UUGUCCCGCAAAUCAUGCA B UUGUCCCGCAAAUCAUGCATT B 4814 R-008399556-000K 1825 1407 UUGUCCCGCAAAUCAUGCA UGCAUGAUUUGCGGGACAAUU 4815 R-008399559-000L 2495 1408 CACCCUGGUGCUGACUAUC GAUAGUCAGCACCAGGGUGUU 4817 R-008399559-000L 2495 1408 CACCCUGGUGCUGACUAUC B CACCCUGGUGCUGACUAUCTT B 4816 R-008399562-000T 629 1409 AAUGUCCAGCGUUUGGCUG B AAUGUCCAGCGUUUGGCUGTT B 4818 R-008399562-000T 629 1409 AAUGUCCAGCGUUUGGCUG CAGCCAAACGCUGGACAUUUU 4819 R-008399565-000U 2561 1410 GGGCUGCCUCCAGGUGACA UGUCACCUGGAGGCAGCCCUU 4821 R-008399565-000U 2561 1410 GGGCUGCCUCCAGGUGACA B GGGCUGCCUCCAGGUGACATT B 4820 R-008399568-000V 2192 1411 GAGUUACUUCACUCUAGGA B GAGUUACUUCACUCUAGGATT B 4822 R-008399568-000V 2192 1411 GAGUUACUUCACUCUAGGA UCCUAGAGUGAAGUAACUCUU 4823 R-008399571-000B 1809 1412 UUCGAAAUCUUGCCCUUUG B UUCGAAAUCUUGCCCUUUGTT B 4824 R-008399571-000B 1809 1412 UUCGAAAUCUUGCCCUUUG CAAAGGGCAAGAUUUCGAAUU 4825 R-008399574-000C 1596 1413 GUAUAGAGGCUCUUGUGCG B GUAUAGAGGCUCUUGUGCGTT B 4826 R-008399574-000C 1596 1413 GUAUAGAGGCUCUUGUGCG CGCACAAGAGCCUCUAUACUU 4827 R-008399577-000D 2298 1414 AGCUGACCAGCUCUCUCUU AAGAGAGAGCUGGUCAGCUUU 4829 R-008399577-000D 2298 1414 AGCUGACCAGCUCUCUCUU B AGCUGACCAGCUCUCUCUUTT B 4828 R-008399580-000K 858 1415 CUAUUGUACGUACCAUGCA UGCAUGGUACGUACAAUAGUU 4831 R-008399580-000K 858 1415 CUAUUGUACGUACCAUGCA B CUAUUGUACGUACCAUGCATT B 4830 R-008399583-000L 524 1416 UAUGCAAUGACUCGAGCUC B UAUGCAAUGACUCGAGCUCTT B 4832 R-008399583-000L 524 1416 UAUGCAAUGACUCGAGCUC GAGCUCGAGUCAUUGCAUAUU 4833 R-008399586-000M 2542 1417 UGCCCAGGACCUCAUGGAU B UGCCCAGGACCUCAUGGAUTT B 4834 R-008399586-000M 2542 1417 UGCCCAGGACCUCAUGGAU AUCCAUGAGGUCCUGGGCAUU 4835 R-008399589-000N 498 1418 AACAAGUAGCUGAUAUUGA B AACAAGUAGCUGAUAUUGATT B 4836 R-008399589-000N 498 1418 AACAAGUAGCUGAUAUUGA UCAAUAUCAGCUACUUGUUUU 4837 R-008399592-000V 414 1419 AAGGCAAUCCUGAGGAAGA UCUUCCUCAGGAUUGCCUUUU 4839 R-008399592-000V 414 1419 AAGGCAAUCCUGAGGAAGA B AAGGCAAUCCUGAGGAAGATT B 4838 R-008399595-000W 1570 1420 CAAGAUGAUGGUCUGCCAA B CAAGAUGAUGGUCUGCCAATT B 4840 R-008399595-000W 1570 1420 CAAGAUGAUGGUCUGCCAA UUGGCAGACCAUCAUCUUGUU 4841 R-008399598-000X 1030 1421 UGCCAUUACAACUCUCCAC GUGGAGAGUUGUAAUGGCAUU 4843 R-008399598-000X 1030 1421 UGCCAUUACAACUCUCCAC B UGCCAUUACAACUCUCCACTT B 4842 R-008399601-000P 1380 20 CAGAUCCAAGUCAACGUCU AGACGUUGACUUGGAUCUGUU 4845 R-008399601-000P 1380 20 CAGAUCCAAGUCAACGUCU B CAGAUCCAAGUCAACGUCUTT B 4844 R-008399604-000R 3087 1422 AUGUAUGGGUAGGGUAAAU B AUGUAUGGGUAGGGUAAAUTT B 4846 R-008399604-000R 3087 1422 AUGUAUGGGUAGGGUAAAU AUUUACCCUACCCAUACAUUU 4847 R-008399607-000S 1664 1423 UGUGCUCUUCGUCAUCUGA B UGUGCUCUUCGUCAUCUGATT B 4848 R-008399607-000S 1664 1423 UGUGCUCUUCGUCAUCUGA UCAGAUGACGAAGAGCACAUU 4849 R-008399610-000Y 1790 1424 AAGGCUACUGUUGGAUUGA B AAGGCUACUGUUGGAUUGATT B 4850 R-008399610-000Y 1790 1424 AAGGCUACUGUUGGAUUGA UCAAUCCAACAGUAGCCUUUU 4851 R-008399613-000Z 1615 1425 UACUGUCCUUCGGGCUGGU ACCAGCCCGAAGGACAGUAUU 4853 R-008399613-000Z 1615 1425 UACUGUCCUUCGGGCUGGU B UACUGUCCUUCGGGCUGGUTT B 4852 R-008399616-000A 774 1426 AUAAGGCUGCAGUUAUGGU ACCAUAACUGCAGCCUUAUUU 4855 R-008399616-000A 774 1426 AUAAGGCUGCAGUUAUGGU B AUAAGGCUGCAGUUAUGGUTT B 4854 R-008399619-000B 1672 1427 UCGUCAUCUGACCAGCCGA UCGGCUGGUCAGAUGACGAUU 4857 R-008399619-000B 1672 1427 UCGUCAUCUGACCAGCCGA B UCGUCAUCUGACCAGCCGATT B 4856 R-008399625-000J 3171 1428 GUUGUAACCUGCUGUGAUA UAUCACAGCAGGUUACAACUU 4859 R-008399625-000J 3171 1428 GUUGUAACCUGCUGUGAUA B GUUGUAACCUGCUGUGAUATT B 4858 R-008399628-000K 2271 1429 AAGAUUACAAGAAACGGCU B AAGAUUACAAGAAACGGCUTT B 4860 R-008399628-000K 2271 1429 AAGAUUACAAGAAACGGCU AGCCGUUUCUUGUAAUCUUUU 4861 R-008399631-000S 1183 1430 UUAUGGCAACCAAGAAAGC B UUAUGGCAACCAAGAAAGCTT B 4862 R-008399631-000S 1183 1430 UUAUGGCAACCAAGAAAGC GCUUUCUUGGUUGCCAUAAUU 4863 R-008399634-000T 2512 1431 UCCAGUUGAUGGGCUGCCA B UCCAGUUGAUGGGCUGCCATT B 4864 R-008399634-000T 2512 1431 UCCAGUUGAUGGGCUGCCA UGGCAGCCCAUCAACUGGAUU 4865 R-008399637-000U 1521 132 CCUGUGCAGCUGGAAUUCU AGAAUUCCAGCUGCACAGGUU 4867 R-008399637-000U 1521 132 CCUGUGCAGCUGGAAUUCU B CCUGUGCAGCUGGAAUUCUTT B 4866 R-008399640-000A 1931 1432 GGGACACAGCAGCAAUUUG CAAAUUGCUGCUGUGUCCCUU 4869 R-008399640-000A 1931 1432 GGGACACAGCAGCAAUUUG B GGGACACAGCAGCAAUUUGTT B 4868 R-008399643-000B 2468 1433 AUGAUGGAACAUGAGAUGG B AUGAUGGAACAUGAGAUGGTT B 4870 R-008399643-000B 2468 1433 AUGAUGGAACAUGAGAUGG CCAUCUCAUGUUCCAUCAUUU 4871 R-008399646-000C 3077 1434 UAUUUGGGAUAUGUAUGGG B UAUUUGGGAUAUGUAUGGGTT B 4872 R-008399646-000C 3077 1434 UAUUUGGGAUAUGUAUGGG CCCAUACAUAUCCCAAAUAUU 4873 R-008399649-000D 2069 1435 CAGCUGCUUUAUUCUCCCA UGGGAGAAUAAAGCAGCUGUU 4875 R-008399649-000D 2069 1435 CAGCUGCUUUAUUCUCCCA B CAGCUGCUUUAUUCUCCCATT B 4874 R-008399652-000K 272 1436 GCUACUCAAGCUGAUUUGA B GCUACUCAAGCUGAUUUGATT B 4876 R-008399652-000K 272 1436 GCUACUCAAGCUGAUUUGA UCAAAUCAGCUUGAGUAGCUU 4877 R-008399655-000L 564 1437 UCCCUGAGACAUUAGAUGA UCAUCUAAUGUCUCAGGGAUU 4879 R-008399655-000L 564 1437 UCCCUGAGACAUUAGAUGA B UCCCUGAGACAUUAGAUGATT B 4878 R-008399658-000M 437 1438 GUGGAUACCUCCCAAGUCC GGACUUGGGAGGUAUCCACUU 4881 R-008399658-000M 437 1438 GUGGAUACCUCCCAAGUCC B GUGGAUACCUCCCAAGUCCTT B 4880 R-008399661-000U 2206 1439 UAGGAAUGAAGGUGUGGCG B UAGGAAUGAAGGUGUGGCGTT B 4882 R-008399661-000U 2206 1439 UAGGAAUGAAGGUGUGGCG CGCCACACCUUCAUUCCUAUU 4883 R-008399664-000V 2187 1440 UGACAGAGUUACUUCACUC GAGUGAAGUAACUCUGUCAUU 4885 R-008399664-000V 2187 1440 UGACAGAGUUACUUCACUC B UGACAGAGUUACUUCACUCTT B 4884 R-008399667-000W 325 1441 AGCGGCUGUUAGUCACUGG CCAGUGACUAACAGCCGCUUU 4887 R-008399667-000W 325 1441 AGCGGCUGUUAGUCACUGG B AGCGGCUGUUAGUCACUGGTT B 4886 R-008399670-000C 3222 1442 AUGGUUCAGAAUUAAACUU B AUGGUUCAGAAUUAAACUUTT B 4888 R-008399670-000C 3222 1442 AUGGUUCAGAAUUAAACUU AAGUUUAAUUCUGAACCAUUU 4889 R-008399673-000D 2024 1443 AACCGAAUUGUUAUCAGAG B AACCGAAUUGUUAUCAGAGTT B 4890 R-008399673-000D 2024 1443 AACCGAAUUGUUAUCAGAG CUCUGAUAACAAUUCGGUUUU 4891 R-008399676-000E 1858 1444 GGGUGCCAUUCCACGACUA B GGGUGCCAUUCCACGACUATT B 4892 R-008399676-000E 1858 1444 GGGUGCCAUUCCACGACUA UAGUCGUGGAAUGGCACCCUU 4893 R-008399679-000F 1574 1445 AUGAUGGUCUGCCAAGUGG B AUGAUGGUCUGCCAAGUGGTT B 4894 R-008399679-000F 1574 1445 AUGAUGGUCUGCCAAGUGG CCACUUGGCAGACCAUCAUUU 4895 R-008399682-000M 1638 78 GGGAAGACAUCACUGAGCC B GGGAAGACAUCACUGAGCCTT B 4896 R-008399682-000M 1638 78 GGGAAGACAUCACUGAGCC GGCUCAGUGAUGUCUUCCCUU 4897 R-008399685-000N 1896 1446 CACAUCAGGAUACCCAGCG B CACAUCAGGAUACCCAGCGTT B 4898 R-008399685-000N 1896 1446 CACAUCAGGAUACCCAGCG CGCUGGGUAUCCUGAUGUGUU 4899 R-008399688-000P 2207 1447 AGGAAUGAAGGUGUGGCGA B AGGAAUGAAGGUGUGGCGATT B 4900 R-008399688-000P 2207 1447 AGGAAUGAAGGUGUGGCGA UCGCCACACCUUCAUUCCUUU 4901 R-008399691-000W 1300 1448 GAAGGUGCUAUCUGUCUGC B GAAGGUGCUAUCUGUCUGCTT B 4902 R-008399691-000W 1300 1448 GAAGGUGCUAUCUGUCUGC GCAGACAGAUAGCACCUUCUU 4903 R-008399694-000X 1192 1449 CCAAGAAAGCAAGCUCAUC GAUGAGCUUGCUUUCUUGGUU 4905 R-008399694-000X 1192 1449 CCAAGAAAGCAAGCUCAUC B CCAAGAAAGCAAGCUCAUCTT B 4904 R-008399697-000Y 551 1450 CGAGCUGCUAUGUUCCCUG B CGAGCUGCUAUGUUCCCUGTT B 4906 R-008399697-000Y 551 1450 CGAGCUGCUAUGUUCCCUG CAGGGAACAUAGCAGCUCGUU 4907 R-008399700-000R 2498 1451 CCUGGUGCUGACUAUCCAG B CCUGGUGCUGACUAUCCAGTT B 4908 R-008399700-000R 2498 1451 CCUGGUGCUGACUAUCCAG CUGGAUAGUCAGCACCAGGUU 4909 R-008399703-000S 1305 1452 UGCUAUCUGUCUGCUCUAG B UGCUAUCUGUCUGCUCUAGTT B 4910 R-008399703-000S 1305 1452 UGCUAUCUGUCUGCUCUAG CUAGAGCAGACAGAUAGCAUU 4911 R-008399706-000T 1337 1453 AUUGUAGAAGCUGGUGGAA B AUUGUAGAAGCUGGUGGAATT B 4912 R-008399706-000T 1337 1453 AUUGUAGAAGCUGGUGGAA UUCCACCAGCUUCUACAAUUU 4913 R-008472717-000G 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguUCAGUUGCU U UsU B 2147 R-008472717-000G 1870 194 ACGACUAGUUCAGUUGCUU aaGCAAcUgAAcuagUCGUUsU 6367 R-008472765-000B 1870 194 ACGACUAGUUCAGUUGCUU aaGCaAcUGAAcuaGUCGUUsU 6368 R-008472765-000B 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguUCAGUUGCU U UsU B 2147 R-008488882-000B 1797 5 CUGUUGGAUUGAUUCGAAA B CUGUUGGAUUGAUUCGAAAUU B 6370 R-008488882-000B 1797 5 CUGUUGGAUUGAUUCGAAA uuucGAauCaAUCcAaCaGUU 6369 R-008488887-000V 1870 194 ACGACUAGUUCAGUUGCUU aaGCAAcUgAaCuagUcGUUU 6371 R-008488887-000V 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguUCAGUUGCU U UU B 6372 R-008488885-000C 1870 194 ACGACUAGUUCAGUUGCUU aaGCAAcUgAAcuagUCGUUU 6373 R-008488885-000C 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguUCAGUUGCU U UU B 6372 R-008488889-000M 1870 194 ACGACUAGUUCAGUUGCUU B aCgaC UAguUCAGUUGCU U UU B 6372 R-008488889-000M 1870 194 ACGACUAGUUCAGUUGCUU aaGCaAcUGAAcuaGUCGUUU 6374 wherein: A, C, G, and U=ribose A, C, G or U a, g, c and u=2′-deoxy-2′-fluoro A, G, C or U A, U, C and G=2′-O-methyl (2′-OMe) A, U, C, or G A, U, C, and G=deoxy A, U, C, or G B=inverted abasic T=thymidine I=inosine s=phosphorothioate linkage Further Synthesis Steps for Commercial Preparation

Once analysis indicates that the target product purity has been achieved after the annealing step, the material is transferred to the tangential flow filtration (TFF) system for concentration and desalting, as opposed to doing this prior to the annealing step.

Ultrafiltration: The annealed product solution is concentrated using a TFF system containing an appropriate molecular weight cut-off membrane. Following concentration, the product solution is desalted via diafiltration using Milli-Q water until the conductivity of the filtrate is that of water.

Lyophilization: The concentrated solution is transferred to a bottle, flash frozen and attached to a lyophilizer. The product is then freeze-dried to a powder. The bottle is removed from the lyophilizer and is now ready for use.

Initial Screening Protocol (96-Well Plate Transfections)

Cell Culture Preparation:

Human hepatoma cell line, HepG2, rhesus kidney epithelial cell line, LLC-MK2 Derivative, and the Huh7 cell line, were grown in modified Eagle's medium. All the culture media were supplemented with 10% fetal bovine serum, 100 μg/mL streptomycin, 100 U/mL penicillin, and 1% sodium bicarbonate.

Transfection and Screening

Cells were plated in all wells of tissue-culture treated, 96-well plates at a final count of 3500 (HepG2 and LLC-MK2 Derivative and Huh7) cells/well in 100 μL of the appropriate culture media. The cells were cultured for overnight after plating at 37° C. in the presence of 5% CO₂.

On the next day, complexes containing siNA and RNAiMax (Invitrogen) were created as follows. A solution of RNAiMax diluted 33-fold in OPTI-MEM was prepared. In parallel, solutions of the siNAs for testing were prepared to a final concentration of 120 nM in OPTI-MEM. After incubation of RNAiMax/OPTI-MEM solution at room temperature for 5 min, an equal volume of the siNA solution and the RNAiMax solution were added together for each of the siNAs.

Mixing resulted in a solution of siNA/RNAiMax where the concentration of siNA was 60 nM. This solution was incubated at room temperature for 20 minutes. After incubation, 20 μL of the solution was added to each of the relevant wells. The final concentration of siNA in each well was 10 nM and the final volume of RNAiMax in each well was 0.3 ul.

For low concentration screens, siNAs were transfected at 200, 150, 100 or 75 μM per well. For 12-point dose response curve studies, the siNA series are 6-fold serial dilution starting at 30 nM or 4-fold serial dilution starting at 40 nM. All transfections were set up as multiple biological replicates.

The time of incubation with the RNAiMax-siNA complexes was 24 hours and there was no change in media between transfection and harvesting for screening and dose response curve studies. For duration assays, the time of incubation with the RNAiMax-siNA complexes was 24, 72, and 120 hours. There was no change in media between transfection and harvesting for 24- and 72-hour time points. Media was replaced with fresh media 72 hours after transfection for 120-hour time point.

Cells-to-Ct and Reverse Transcription Reactions

The culture medium was aspirated and discarded from the wells of the culture plates at the desired time points. The transfected cells were washed once with 50 uL DPBS solution per well. Fifty microliters per well of the Lysis Solution from the TaqMan® Gene Expression Cells-to-CT® Kit (Applied Biosystems, Cat#4399002) supplemented with DNase I was added directly to the plates to lyse the cells. Five microliters per well of Stop Solution from the same kit was added to the plates to inactivate DNase I 5 minutes later. The lysis plates were incubated for at least 2 minutes at room temperature. The plates can be stored for 2 hours at 4° C., or −80° C. for two months.

Each well of the reverse transcription plate required 10 uL of 2× reverse transcriptase buffer, 1 uL of 20× reverse transcription enzyme and 2 uL of nuclease-free water. The reverse transcription master mix was prepared by mixing 2× reverse transcription buffer, 20× reverse transcription enzyme mix, and nuclease-free water. 13 uL of the reverse transcription master mix was dispensed into each well of the reverse transcription plate (semi-skirted). A separate reverse transcription plate was prepared for each cell plate. A separate reverse transcription plate was prepared for each cell plate. Seven microliters per lysate from the cell lysis procedure described above was added into each well of the reverse transcription plate. The plate was sealed and spun on a centrifuge (1000 rpm for 30 seconds) to settle the contents to the bottom of the reverse transcription plate. The plate was placed in a thermocycler at 37° C. for 60 min, 95° C. for 5 min, and 4° C. until the plate is removed from the thermocycler. Upon removal, if not used immediately, the plate was frozen at −20° C.

For duration assays, a similar protocol was followed, however, the cells were lysed 1, 3, or 5 days after transfection. cDNA was generated using Cells-to-Ct™ Kit (Applied Biosystems).

Quantitative RT-PCR (Taqman)

A series of probes and primers were used to detect the various mRNA transcripts of the genes of CTNNB1 and GAPDH. All Taqman probes and primers for the experiments here-in described were supplied as pre-validated sets by Applied Biosystems, Inc. (see Table 2).

TABLE 2 Probes and primers used to carry out Real-Time RT/PCR (Taqman) reactions for CTNNB1 mRNA analysis. Species Gene ABI Cat. # Human CTNNB1 Hs00355045_m1 Human GAPDH 4310884E Rhesus GAPDH Rh02621745_g1 Mouse CTNNB1 Mm00483033_m1 Mouse GAPDH 4352339E

The assays were performed on an ABI 7900 instrument, according to the manufacturer's instructions. A TaqMan Gene Expression Master Mix (provided in the Cells-to-CT™ Kit, Applied Biosystems, Cat #4399002) was used. The PCR reactions were carried out at 50° C. for 2 min, 95° C. for 10 min followed by 40 cycles at 95° C. for 15 secs and 60° C. for 1 minute.

Within each experiment, the baseline was set in the exponential phase of the amplification curve, and based on the intersection point of the baselines with the amplification curve, a Ct value was assigned by the instrument.

Calculations

The expression level of the gene of interest and % inhibition of gene expression (% KD) was calculated using Comparative Ct method: ΔCt=Ct _(Target) −Ct _(GAPDH) ΔΔCt(log 2(fold change))=ΔCt _((Target siNA)) −ΔCt _((NTC)) Relative expression level=2^(−ΔΔCt) % KD=100×(1−2^(−ΔΔCt))

The non-targeting control siNA was, unless otherwise indicated, chosen as the value against which to calculate the percent inhibition (knockdown) of gene expression, because it is the most relevant control.

Additionally, only normalized data, which reflects the general health of the cell and quality of the RNA extraction, was examined. This was done by looking at the level of two different mRNAs in the treated cells, the first being the target mRNA and the second being the normalizer mRNA. This allowed for elimination of siNAs that might be potentially toxic to cells rather than solely knocking down the gene of interest. This was done by comparing the Ct for GAPDH in each well relative to the GAPDH Ct for the entire plate.

All calculations of IC₅₀s were performed using R.2.9.2 software. The data were analyzed using the sigmoidal dose-response (variable slope) equation for simple ligand binding. In all of the calculations of the percent inhibition (knock-down), the calculation was made relative to the normalized level of expression of the gene of interest in the samples treated with the non-targeting control (Ctrl siNA) unless otherwise indicated.

The level of protein was quantified using the Bio-Rad VersaDoc Imager according to the protocols of that piece of equipment. A pixel count was performed in each lane using an area of identical size. Each sample was then compared to the appropriate control treated sample and converted to a percent of protein remaining compared to control.

The effects of lead siNAs on CTNNB1 protein level were compared to the effects of the universal control using a two tail Student's T-test to obtain a P value. P<0.05 was considered significant.

Results:

The CTNNB1 siNAs were designed and synthesized as described previously. Various siNAs were screened in HepG2, MK2D and Huh7 cells. The log 2(fold change) in CTNNB1 gene expression data upon treatment with various modified CTNNB1 siNAs in human cells is shown in Table 3a. Each screen was performed at 24 hrs. Quantitative RT-PCR was used to assess the level of CTNNB1 mRNA and the data were normalized to the expression level of GAPDH (an ubiquitously expressed ‘house-keeping’ gene). Each treatment was then normalized against the non-CTNNB1 targeting control.

TABLE 3a Primary screening data in HepG2 Cells, MK2D Cells and Huh7 Cells (n = 2), recorded as log 2(fold change) in CTNNB1 gene expression. HEPG2 HEPG2 MK2D MK2D Huh7 Huh7 Mean SD Mean SD Mean SD siNA Duplex ID ΔΔCt ΔΔCt ΔΔCt ΔΔCt ΔΔCt ΔΔCt R-008362875-000L 5.06 0.28 5.05 0.05 4.10 0.12 R-008362785-000U 4.92 0.24 4.98 0.05 4.05 0.14 R-008362959-000W 4.76 0.11 4.90 0.14 3.99 0.05 R-008363073-000K 4.54 0.16 5.15 0.14 3.98 0.60 R-008308997-000F 4.27 0.32 4.86 0.17 3.97 0.16 R-008362932-000A 4.57 0.50 5.13 0.13 3.97 0.11 R-008362713-000E 4.52 0.02 4.56 0.00 3.96 0.20 R-008362791-000B 5.14 0.21 5.96 0.04 3.94 0.06 R-008362689-000U 5.16 0.20 5.24 0.04 3.94 0.08 R-008362692-000A 0.84 0.06 4.30 0.09 3.94 0.00 R-008363055-000T 4.87 0.16 5.19 0.11 3.86 0.13 R-008309033-000Y 4.39 0.08 5.35 0.15 3.83 0.04 R-008363058-000U 4.20 0.23 4.68 0.22 3.83 0.43 R-008362755-000S 4.18 0.21 4.37 0.08 3.83 0.10 R-008362821-000P 4.29 0.53 4.95 0.11 3.83 0.09 R-008362722-000N 5.37 0.36 5.27 0.19 3.82 0.25 R-008362824-000R 4.36 0.23 4.92 0.06 3.80 0.05 R-008363070-000J 4.51 0.03 4.54 0.01 3.79 0.14 R-008362686-000T 4.84 0.26 5.03 0.08 3.79 0.34 R-008362947-000L 4.45 0.25 4.74 0.04 3.79 0.44 R-008362728-000R 4.66 0.15 4.47 0.12 3.77 0.15 R-008363019-000H 4.75 0.08 5.06 0.05 3.77 0.21 R-008362833-000Z 4.26 0.11 4.61 0.15 3.75 0.09 R-008362812-000F 4.79 0.14 4.93 0.17 3.75 0.37 R-008363064-000B 4.54 0.11 4.87 0.16 3.75 0.49 R-008362980-000V 1.07 0.02 4.48 0.13 3.73 0.09 R-008362992-000E 0.35 0.09 4.24 0.04 3.72 0.00 R-008362872-000K 4.28 0.26 4.77 0.11 3.70 0.02 R-008362677-000J 4.37 0.06 4.60 0.01 3.68 0.08 R-008362878-000M 3.85 0.09 4.54 0.06 3.67 0.01 R-008363031-000Y 4.82 0.26 5.19 0.14 3.65 0.00 R-008363043-000H 4.89 0.27 5.61 0.03 3.65 0.04 R-008362797-000D 4.77 0.03 4.31 0.09 3.63 0.09 R-008362842-000H 3.92 0.00 4.71 0.09 3.63 0.26 R-008362704-000W 4.11 0.16 4.38 0.12 3.60 0.17 R-008362740-000F 0.66 0.11 4.74 0.10 3.60 0.00 R-008362839-000B 4.10 0.22 4.43 0.16 3.57 0.40 R-008362950-000T 4.73 0.08 4.80 0.21 3.55 0.03 R-008363010-000E 4.28 0.12 4.44 0.09 3.51 0.40 R-008362752-000R 3.42 0.03 2.93 0.04 3.50 0.33 R-008362854-000T 0.72 0.26 3.93 0.09 3.49 0.00 R-008362830-000Y 4.59 0.12 4.90 0.04 3.48 0.03 R-008363016-000G 4.14 0.09 4.35 0.02 3.45 0.05 R-008362998-000G 4.29 0.18 4.05 0.12 3.45 0.01 R-008362674-000H 4.55 0.14 4.55 0.01 3.45 0.32 R-008362938-000C 4.27 0.10 5.01 0.22 3.44 0.27 R-008362788-000V 4.11 0.21 4.48 0.09 3.44 0.11 R-008362884-000V 4.11 0.08 4.90 0.13 3.44 0.11 R-008362896-000E 3.91 0.18 3.86 0.06 3.44 0.29 R-008363061-000A 3.84 0.17 4.34 0.01 3.43 0.14 R-008362782-000T 3.73 0.60 5.27 0.13 3.43 0.43 R-008362776-000K 4.08 0.15 4.33 0.15 3.43 0.12 R-008362764-000A 1.00 0.02 4.82 0.14 3.40 0.31 R-008362683-000S 0.85 0.00 4.80 0.12 3.39 0.32 R-008362869-000D 4.65 0.02 4.57 0.06 3.36 0.24 R-008309054-000S 0.88 0.01 4.27 0.08 3.36 0.12 R-008362746-000H 4.22 0.08 4.85 0.07 3.35 0.47 R-008362935-000B 4.51 0.01 5.00 0.14 3.33 0.15 R-008362995-000F 3.52 0.02 4.80 0.02 3.31 0.25 R-008362923-000S 4.16 0.16 4.15 0.08 3.31 0.09 R-008309099-000E 3.72 0.38 4.49 0.03 3.30 0.23 R-008362794-000C 3.97 0.05 3.81 0.05 3.30 0.12 R-008308556-000N 4.54 0.04 4.69 0.19 3.29 0.13 R-008309087-000V 4.04 0.06 4.19 0.14 3.28 0.01 R-008362893-000D 0.66 0.15 4.31 0.05 3.27 0.20 R-008362725-000P 4.20 0.22 4.54 0.23 3.26 0.05 R-008362863-000B 1.04 0.13 4.27 0.09 3.26 0.20 R-008362941-000J 3.93 0.42 4.38 0.16 3.24 0.34 R-008362929-000U 1.45 0.05 3.98 0.08 3.23 0.04 R-008363052-000S 0.43 0.13 4.30 0.07 3.23 0.03 R-008362857-000U 1.73 0.12 3.70 0.08 3.23 0.37 R-008362758-000T 0.70 0.16 4.19 0.10 3.22 0.41 R-008309048-000J 4.21 0.15 4.23 0.09 3.21 0.14 R-008363004-000X 3.76 0.12 4.55 0.07 3.20 0.43 R-008362719-000G 3.88 0.16 4.61 0.31 3.20 0.09 R-008362671-000G 4.56 0.19 4.71 0.19 3.20 0.06 R-008363049-000K 3.40 0.08 3.01 0.01 3.19 0.22 R-008362902-000Y 3.79 0.29 3.92 0.12 3.19 0.07 R-008363022-000P 4.32 0.21 4.06 0.12 3.14 0.43 R-008362848-000K 3.83 0.04 4.04 0.18 3.09 0.08 R-008362743-000G 4.46 0.16 5.28 0.10 3.09 0.69 R-008362737-000Z 4.41 0.09 4.88 0.24 3.09 0.19 R-008362881-000U 0.77 0.02 4.08 0.10 3.09 0.05 R-008308601-000T 4.21 0.54 4.56 0.02 3.08 0.17 R-008362983-000W 4.09 0.03 4.38 0.00 3.04 0.12 R-008362800-000W 4.42 0.15 4.69 0.06 3.02 0.38 R-008362971-000L 4.10 0.14 4.48 0.05 3.02 0.01 R-008308661-000X 3.68 0.27 4.68 0.21 3.00 0.09 R-008362956-000V 3.89 0.10 3.97 0.19 3.00 0.05 R-008363001-000W 3.97 0.05 4.25 0.06 2.99 0.02 R-008362680-000R 4.22 0.16 4.33 0.12 2.99 0.31 R-008309081-000T 3.97 0.11 4.21 0.01 2.99 0.35 R-008362860-000A 3.39 0.49 3.39 0.01 2.98 0.19 R-008362716-000F 3.87 0.10 4.27 0.19 2.96 0.20 R-008362809-000Z 0.82 0.00 3.79 0.06 2.95 0.18 R-008308562-000W 3.85 0.14 4.09 0.09 2.94 0.01 R-008362989-000Y 4.11 0.07 4.27 0.01 2.94 0.01 R-008309102-000X 3.95 0.05 3.89 0.20 2.90 0.11 R-008362773-000J 3.92 0.23 3.99 0.02 2.89 0.06 R-008362779-000L 4.30 0.20 4.46 0.02 2.85 0.86 R-008362962-000C 3.67 0.08 3.59 0.09 2.82 0.00 R-008362905-000Z 3.33 0.22 3.81 0.08 2.78 0.14 R-008362707-000X 3.53 0.49 4.13 0.15 2.78 0.03 R-008362977-000N 3.29 0.34 4.18 0.01 2.76 0.27 R-008362944-000K 3.56 0.19 3.31 0.13 2.75 0.19 R-008309018-000G 3.53 0.13 4.22 0.07 2.72 0.16 R-008362770-000H 3.92 0.15 3.97 0.01 2.72 0.12 R-008362749-000J 3.29 0.13 3.60 0.02 2.68 0.09 R-008308496-000Y 3.83 0.21 4.49 0.11 2.67 0.41 R-008362836-000A 0.49 0.02 3.94 0.05 2.67 0.81 R-008308667-000Z 4.42 0.01 4.60 0.03 2.65 0.45 R-008362926-000T 4.22 0.08 5.81 0.12 2.60 0.18 R-008362851-000S 4.01 0.80 4.57 0.01 2.53 0.95 R-008363007-000Y 3.23 0.05 2.93 0.15 2.51 0.19 R-008362701-000V 3.94 0.09 4.32 0.13 2.51 0.48 R-008362698-000C 4.10 0.03 4.15 0.13 2.50 0.24 R-008308625-000M 3.77 0.09 3.42 0.24 2.46 0.03 R-008362815-000G 4.27 0.20 4.14 0.09 2.46 0.51 R-008363067-000C 4.14 0.27 5.42 0.16 2.46 0.06 R-008362914-000H 3.78 0.03 3.66 0.06 2.41 0.25 R-008363028-000S 0.86 0.01 4.10 0.07 2.39 0.09 R-008362866-000C 3.42 0.03 3.68 0.01 2.38 0.07 R-008362695-000B 3.06 0.18 2.78 0.06 2.37 0.27 R-008363013-000F 3.56 0.24 3.93 0.11 2.37 0.16 R-008362908-000A 3.20 0.11 2.63 0.01 2.35 0.09 R-008362917-000J 3.01 0.04 3.23 0.05 2.34 0.15 R-008308508-000U 4.18 0.04 4.17 0.02 2.29 0.58 R-008308526-000L 0.59 0.04 3.87 0.09 2.27 0.15 R-008363034-000Z 0.78 0.17 3.95 0.02 2.27 0.30 R-008362827-000S 3.74 0.00 3.12 0.05 2.25 0.09 R-008362968-000E 4.00 0.02 3.46 0.12 2.24 0.62 R-008309006-000X 2.95 0.26 2.59 0.04 2.24 0.07 R-008362734-000Y 4.06 0.02 4.33 0.15 2.21 0.41 R-008362767-000B 4.22 0.05 4.19 0.13 2.13 0.41 R-008362806-000Y 0.73 0.04 2.89 0.02 2.08 0.56 R-008308724-000N 3.34 0.05 3.55 0.01 2.06 0.04 R-008362818-000H 1.49 0.14 3.44 0.05 2.05 0.18 R-008309051-000R 2.38 0.12 2.71 0.06 2.04 0.30 R-008362920-000R 2.82 0.31 3.00 0.13 1.98 0.03 R-008362965-000D 1.24 0.07 2.76 0.00 1.98 0.05 R-008308544-000D 0.53 0.03 3.67 0.07 1.97 0.04 R-008308523-000K 3.15 0.01 3.69 0.12 1.94 0.17 R-008362986-000X 3.24 0.08 3.50 0.13 1.92 0.01 R-008362731-000X 3.62 0.04 2.96 0.09 1.77 1.24 R-008363046-000J 2.67 0.02 3.94 0.05 1.75 0.07 R-008308733-000X 3.32 0.16 2.63 0.08 1.74 0.15 R-008362911-000G 0.75 0.04 2.74 0.10 1.73 0.26 R-008308706-000W 3.31 0.01 4.09 0.17 1.61 0.09 R-008308709-000X 3.29 0.13 3.95 0.00 1.54 0.30 R-008362890-000C 0.90 0.03 1.03 0.22 1.35 0.34 R-008363025-000R 2.95 0.06 3.05 0.08 1.32 0.81 R-008362953-000U 2.33 0.03 2.67 0.10 1.24 0.10 R-008362899-000F 1.50 0.17 2.77 0.03 1.24 0.13 R-008308697-000B 2.18 0.11 2.19 0.04 1.17 0.02 R-008308589-000S 2.17 0.22 3.42 0.03 1.12 0.08 R-008308634-000W 2.41 0.11 2.66 0.01 1.09 0.11 R-008362710-000D 0.71 0.10 2.17 0.11 1.06 0.18 R-008308493-000X 0.55 0.03 2.12 0.24 1.00 0.05 R-008308703-000V 0.87 0.02 1.69 0.02 0.95 0.13 R-008308568-000Y 2.84 0.14 2.85 0.23 0.63 0.41 R-008362887-000W 0.83 0.14 0.93 0.09 0.33 0.07 R-008362974-000M 0.80 0.07 0.96 0.02 0.23 0.02 R-008363037-000A 0.69 0.09 0.85 0.05 0.12 0.03 R-008363040-000G −0.07 0.02 −0.22 0.05 −0.19 0.09 R-008362845-000J −4.37 0.21 −1.50 0.07 −1.25 0.33 R-008362761-000Z −2.03 0.11 −3.54 0.05 −1.88 0.24 R-008308586-000R −1.64 0.18 −1.83 0.01 −2.27 0.31 R-008362803-000X −4.04 0.51 −4.61 0.01 −4.03 0.44

A subset of siNAs from Table 3a having a large log 2(fold change) in the primary screen were rescreened in Huh7 cells. The results are shown in Table 32b.

TABLE 3b Primary screening data in Huh7 Cells (n = 2), recorded as log 2(fold change) in CTNNB1 gene expression. Huh7 Mean Huh7 SD siNA Duplex ID ΔΔCt ΔΔCt R-008362791-000B 4.24 0.05 R-008362812-000F 4.17 0.02 R-008362689-000U 4.17 0.01 R-008362722-000N 4.17 0.04 R-008362932-000A 4.07 0.17 R-008363043-000H 4.05 0.02 R-008362875-000L 4.03 0.12 R-008308997-000F 3.99 0.35 R-008362947-000L 3.99 0.18 R-008362821-000P 3.95 0.11 R-008362686-000T 3.94 0.13 R-008363070-000J 3.91 0.08 R-008362824-000R 3.91 0.16 R-008362785-000U 3.88 0.06 R-008363031-000Y 3.88 0.10 R-008363073-000K 3.87 0.19 R-008362782-000T 3.86 0.04 R-008309033-000Y 3.85 0.00 R-008363064-000B 3.84 0.08 R-008362950-000T 3.84 0.05 R-008362959-000W 3.83 0.28 R-008363019-000H 3.82 0.02 R-008362842-000H 3.82 0.14 R-008363058-000U 3.75 0.11 R-008362713-000E 3.73 0.08 R-008362938-000C 3.72 0.05 R-008362755-000S 3.71 0.16 R-008362746-000H 3.59 0.22 R-008362830-000Y 3.56 0.16 R-008362704-000W 3.55 0.11 R-008362839-000B 3.48 0.23 R-008362992-000E 3.45 0.04 R-008363055-000T 3.44 0.26 R-008363061-000A 3.38 0.07 R-008362995-000F 3.35 0.01

The CTNNB1 siNAs were designed and synthesized as described previously. Various siNAs were screened in MK2D cells. The log 2(fold change) in CTNNB1 gene expression data upon treatment with various modified CTNNB1 siNAs in human cells is shown in Table 3c. Each screen was performed at 24 hrs. Quantitative RT-PCR was used to assess the level of CTNNB1 mRNA and the data were normalized to the expression level of GAPDH (a ubiquitously expressed ‘house-keeping’ gene). Each treatment was then normalized against the non-CTNNB1 targeting control.

TABLE 3c Primary screening data in MK2D Cells (n = 2), recorded as log 2(fold change) in CTNNB1 gene expression. MK2D MEAN MK2D SD siNA Duplex ID ΔΔCT ΔΔCT R-008395722-000P 4.06 0.06 R-008395725-000R 3.78 0.08 R-008395749-000K 4.20 0.02 R-008395752-000S 5.53 0.06 R-008395758-000U 2.41 0.01 R-008395761-000A 5.61 0.08 R-008395767-000C 3.00 0.00 R-008395770-000J 5.53 0.18 R-008395779-000M 4.93 0.16 R-008395785-000V 2.56 0.19 R-008395791-000C 6.76 0.23 R-008395800-000X 2.87 0.07 R-008395827-000T 2.89 0.14 R-008395863-000C 1.65 0.22 R-008395881-000V 3.94 0.05 R-008395887-000X 4.54 0.24 R-008395977-000P 5.63 0.47 R-008395980-000W 4.31 0.27 R-008395995-000G 4.83 0.12 R-008396004-000Y 3.16 0.01 R-008396022-000R 4.83 0.13 R-008396052-000T 4.08 0.08 R-008396061-000B −0.99 0.08 R-008396067-000D 3.52 0.39 R-008396070-000K 4.84 0.03 R-008396079-000N 4.32 0.04 R-008396103-000Z 3.67 0.07 R-008396106-000A 5.34 0.03 R-008396109-000B −1.10 0.03 R-008396112-000H 5.19 0.26 R-008396118-000K 3.23 0.01 R-008396136-000C −2.56 R-008396142-000K −0.95 0.10 R-008396148-000M 3.84 0.24 R-008396151-000U 4.60 0.08 R-008396154-000V 4.77 0.07 R-008396172-000M 6.28 0.06 R-008396214-000K 2.82 0.29 R-008396220-000T 5.40 0.05 R-008396223-000U 4.57 0.06 R-008396226-000V 2.27 0.12 R-008396247-000N 3.32 0.08 R-008396250-000V 3.79 1.00 R-008396253-000W 6.42 0.03 R-008396259-000Y 2.14 0.03 R-008396274-000P 5.39 0.18 R-008396292-000G 3.85 0.05 R-008396295-000H 2.57 0.08 R-008396298-000J 3.00 0.22 R-008396301-000B 2.10 0.24 R-008396304-000C 3.24 0.04 R-008396343-000N 2.49 0.07 R-008396349-000R 4.00 0.08 R-008396379-000T 4.29 0.22 R-008396382-000Z −0.44 0.02 R-008396388-000B 3.90 0.18 R-008396391-000H 2.23 0.05 R-008396409-000F 3.96 0.26 R-008396415-000N 4.72 0.00 R-008396418-000P 4.48 0.20 R-008396421-000W 3.78 0.14 R-008396457-000A 3.89 0.01 R-008396478-000U 4.62 0.03 R-008396481-000A 4.29 0.14 R-008396529-000A 4.69 0.10 R-008396532-000G 4.46 0.05 R-008396538-000J 5.59 0.05 R-008396544-000S 5.04 0.20 R-008396550-000Z 3.79 0.18 R-008396553-000A 2.32 0.01 R-008396556-000B 2.85 0.07 R-008396559-000C 5.20 0.12 R-008396613-000R 4.92 0.10 R-008396616-000S 2.90 0.01 R-008396619-000T 4.67 0.37 R-008396622-000Z 4.09 0.08 R-008396631-000H 4.28 0.13 R-008396685-000E 4.01 0.10 R-008396694-000N 4.73 0.12 R-008396697-000P 1.56 0.16 R-008396730-000J 2.19 0.02 R-008396730-000J 3.24 0.03 R-008396733-000K 1.43 0.10 R-008396736-000L 5.14 0.04 R-008396742-000U 0.78 0.28 R-008396751-000C 3.62 0.13 R-008396754-000D 4.17 0.05 R-008396793-000P 2.68 0.01 R-008396796-000R 4.94 0.03 R-008396820-000B 4.70 0.08 R-008396826-000D 4.73 0.20 R-008396832-000L 3.63 0.10 R-008396835-000M 2.84 0.85 R-008396838-000N 3.40 0.20 R-008396868-000R 3.99 0.14 R-008396871-000X 4.62 0.12 R-008396874-000Y 4.01 0.02 R-008396898-000T 3.11 0.32 R-008396904-000L 2.46 0.06 R-008396910-000U 2.30 0.03 R-008396919-000X 4.06 0.23 R-008396934-000N 3.37 0.18 R-008396943-000X 3.77 0.01 R-008396949-000Z 3.40 0.07 R-008396958-000H 5.29 0.05 R-008396985-000J 5.25 0.09 R-008396994-000T 3.08 0.40 R-008397015-000U 4.41 0.08 R-008397018-000V 1.73 0.03 R-008397021-000B 5.50 0.05 R-008397024-000C 3.45 0.27 R-008397039-000N 4.21 0.04 R-008397060-000M 1.76 0.08 R-008397069-000R 3.16 0.14 R-008397072-000X 3.94 0.17 R-008397081-000F 3.02 0.02 R-008397108-000M 5.62 0.08 R-008397111-000U 4.08 0.10 R-008397114-000V 3.50 0.03 R-008397132-000M 3.97 0.16 R-008397138-000P 6.60 0.17 R-008397141-000W 4.58 0.02 R-008397147-000Y 3.73 0.00 R-008397150-000E 6.44 0.11 R-008397153-000F 2.43 0.03 R-008397156-000G 4.04 0.31 R-008397165-000R 3.44 0.01 R-008397168-000S 3.29 0.15 R-008397180-000G 4.46 0.02 R-008397186-000J 5.22 0.06 R-008397237-000R 2.77 0.04 R-008397243-000Y 3.31 0.23 R-008397246-000Z 3.21 0.21 R-008397255-000H 3.77 0.05 R-008397258-000J 1.91 0.02 R-008397306-000P 3.04 0.05 R-008397309-000R 3.16 0.05 R-008397312-000X 5.97 0.13 R-008397315-000Y 4.19 0.33 R-008397342-000Z 3.04 0.06 R-008397345-000A 4.87 0.03 R-008397348-000B 3.62 0.04 R-008397351-000H 2.29 0.15 R-008397354-000J 4.81 0.09 R-008397372-000B 4.40 0.10 R-008397381-000K 3.38 0.08 R-008397384-000L 3.95 0.14 R-008397387-000M 6.11 0.04 R-008397390-000U 3.84 0.16 R-008397396-000W 6.69 0.24 R-008397408-000S 5.61 0.05 R-008397417-000A 3.92 0.49 R-008397420-000G 4.53 0.02 R-008397429-000K 2.91 0.05 R-008397450-000J 2.53 0.05 R-008397459-000M 4.75 0.00 R-008397462-000U 5.28 0.17 R-008397465-000V 4.45 0.18 R-008397468-000W 4.05 0.09 R-008397471-000C 3.22 0.12 R-008397474-000D 4.06 0.21 R-008397519-000C 3.67 0.03 R-008397531-000T 5.94 0.10 R-008397537-000V 4.20 0.07 R-008397540-000B 5.04 0.12 R-008397564-000W 5.95 0.12 R-008397576-000F 3.39 0.05 R-008397579-000G 2.94 0.02 R-008397582-000N 3.95 0.12 R-008397588-000R 4.25 0.07 R-008397591-000X 5.25 0.06 R-008397594-000Y 3.81 0.00 R-008397618-000D 4.58 0.03 R-008397630-000U 3.46 0.15 R-008397645-000E 3.71 0.07 R-008397657-000P −1.50 0.14 R-008397660-000W 4.85 0.04 R-008397663-000X 2.62 0.03 R-008397666-000Y 3.68 0.09 R-008397669-000Z 2.80 0.78 R-008397702-000U 2.34 0.78 R-008397705-000V 5.13 0.20 R-008397732-000W 3.27 0.01 R-008397735-000X 2.92 0.03 R-008397738-000Y 3.97 0.06 R-008397768-000A 1.62 0.05 R-008397771-000G 4.45 0.17 R-008397774-000H −1.15 0.02 R-008397777-000J −1.16 0.09 R-008397783-000S −1.16 0.03 R-008397807-000X 2.52 0.05 R-008397828-000R 4.36 0.27 R-008397855-000S 1.94 0.01 R-008397858-000T 4.43 0.17 R-008397882-000T 5.26 0.10 R-008397885-000U 2.53 0.01 R-008397888-000V 3.55 0.03 R-008397933-000Z 4.19 0.22 R-008397966-000C 5.19 0.17 R-008397969-000D 3.35 0.11 R-008397987-000W 4.95 0.16 R-008397990-000C 4.69 0.09 R-008397993-000D 2.17 0.01 R-008397996-000E −1.14 0.02 R-008398002-000V 3.74 0.10 R-008398020-000M 3.51 0.06 R-008398026-000P 5.64 0.06 R-008398050-000P 3.57 0.10 R-008398056-000S 4.46 0.13 R-008398086-000U 3.65 0.18 R-008398098-000D 3.93 0.04 R-008398119-000H 2.68 0.25 R-008398137-000A 5.16 0.02 R-008398140-000G 3.87 0.14 R-008398140-000G 4.86 0.03 R-008398143-000H 1.74 0.05 R-008398146-000J 3.95 0.12 R-008398149-000K 4.45 0.03 R-008398155-000T 4.37 0.25 R-008398161-000A 3.82 0.05 R-008398176-000L 3.83 0.14 R-008398182-000U 4.52 0.06 R-008398227-000T 6.28 0.06 R-008398239-000C 2.48 0.02 R-008398242-000J 3.81 0.03 R-008398245-000K 5.34 0.23 R-008398275-000M 1.53 0.08 R-008398278-000N 2.71 0.07 R-008398281-000V 4.31 0.14 R-008398326-000U 5.66 0.09 R-008398329-000V 3.83 0.26 R-008398332-000B 4.63 0.02 R-008398362-000D 2.98 0.17 R-008398365-000E 5.06 0.06 R-008398368-000F 4.37 0.03 R-008398374-000N 3.66 0.03 R-008398377-000P −1.12 0.02 R-008398401-000A 4.57 0.18 R-008398413-000K 3.23 0.07 R-008398419-000M 3.78 0.10 R-008398422-000U 2.63 0.05 R-008398425-000V 3.31 0.02 R-008398428-000W 4.20 0.05 R-008398431-000C 4.82 0.02 R-008398434-000D 2.54 0.06 R-008398437-000E 5.38 0.09 R-008398479-000S 5.16 0.41 R-008398482-000Y 1.55 0.01 R-008398533-000E 3.60 0.01 R-008398539-000G 4.85 0.07 R-008398542-000N 3.64 0.01 R-008398563-000G 5.22 0.27 R-008398566-000H 2.69 0.13 R-008398575-000S 4.79 0.03 R-008398584-000A 2.92 0.04 R-008398590-000H 4.97 0.13 R-008398593-000J 4.52 0.03 R-008398617-000P 3.50 0.01 R-008398647-000S 4.34 0.23 R-008398650-000Y 4.26 0.01 R-008398653-000Z 3.27 0.22 R-008398656-000A 5.36 0.15 R-008398662-000H 5.03 0.42 R-008398665-000J 3.28 0.08 R-008398668-000K 5.53 0.41 R-008398677-000U 4.94 0.03 R-008398686-000C 1.43 0.14 R-008398701-000E 4.38 0.10 R-008398740-000R 3.54 0.04 R-008398749-000U 2.72 0.18 R-008398782-000C 2.87 0.02 R-008398785-000D −1.10 0.05 R-008398788-000E 5.61 0.09 R-008398815-000S 3.68 0.14 R-008398821-000Z 5.75 0.00 R-008398830-000H 4.45 0.21 R-008398833-000J 4.61 0.05 R-008398836-000K 3.83 0.01 R-008398863-000L −1.22 0.03 R-008398866-000M 3.99 0.02 R-008398869-000N 4.06 0.32 R-008398872-000V 4.32 0.18 R-008398875-000W 3.28 0.08 R-008398902-000H 5.58 0.03 R-008398917-000U 2.05 0.13 R-008398923-000B 5.33 0.13 R-008398926-000C 2.22 0.07 R-008398956-000E 3.78 0.15 R-008398962-000M 1.67 0.04 R-008398965-000N 4.87 0.13 R-008398968-000P 3.76 0.21 R-008399031-000H 4.84 0.16 R-008399034-000J 5.71 0.05 R-008399037-000K 2.86 0.08 R-008399049-000V 3.77 0.01 R-008399058-000D 3.88 0.26 R-008399070-000U 5.31 0.00 R-008399091-000M 4.67 0.01 R-008399103-000H 3.75 0.18 R-008399109-000K 5.39 0.14 R-008399133-000K 3.73 0.05 R-008399145-000V 4.27 0.01 R-008399172-000W 3.39 0.07 R-008399175-000X 3.44 0.11 R-008399181-000E 3.37 0.06 R-008399184-000F 6.50 0.11 R-008399187-000G 4.29 0.10 R-008399202-000J 4.09 0.44 R-008399205-000K 2.85 0.21 R-008399208-000L 4.45 0.00 R-008399211-000T 4.08 0.08 R-008399214-000U 4.54 0.01 R-008399226-000D 2.02 0.05 R-008399262-000N 4.13 0.06 R-008399265-000P 3.87 0.03 R-008399268-000R 5.89 0.30 R-008399271-000X 4.44 0.18 R-008399274-000Y 1.24 0.07 R-008399334-000N 2.96 0.22 R-008399343-000X 3.86 0.02 R-008399370-000Y 1.45 0.92 R-008399373-000Z 3.64 0.17 R-008399376-000A 4.79 0.22 R-008399382-000H 4.33 0.06 R-008399394-000T 4.40 0.09 R-008399415-000X 3.21 0.15 R-008399418-000Y 3.33 0.13 R-008399421-000E 3.57 0.21 R-008399436-000R −1.18 0.08 R-008399439-000S 3.23 0.13 R-008399442-000Y 4.12 0.04 R-008399445-000Z −0.90 0.12 R-008399451-000G 2.57 0.66 R-008399454-000H 1.55 0.01 R-008399457-000J 2.95 0.00 R-008399481-000J 2.30 0.08 R-008399487-000L 2.81 0.26 R-008399526-000H 5.38 0.35 R-008399535-000S 3.24 0.04 R-008399538-000T 4.18 0.28 R-008399568-000V 3.85 0.13 R-008399571-000B 4.51 0.28 R-008399589-000N 2.43 0.07 R-008399592-000V 5.11 0.02 R-008399604-000R −1.15 0.03 R-008399610-000Y 4.97 0.16 R-008399616-000A 2.18 0.03 R-008399628-000K 4.04 0.00 R-008399634-000T 3.53 0.23 R-008399640-000A 3.90 0.16 R-008399652-000K 4.94 0.03 R-008399655-000L 3.57 0.14 R-008399658-000M 3.74 0.42 R-008399661-000U 3.01 0.06 R-008399664-000V 3.84 0.16 R-008399670-000C 5.25 0.09 R-008399679-000F 3.51 0.29 R-008399682-000M 1.20 0.08

Select high ranking siNAs from Tables 3a & 32b were further analyzed for efficacy and potency in Huh7 cells use dose response curves. The results for these siNAs are shown in Table 4. The potency 50 is the calculated siNA transfection concentration that produces 50% target mRNA knockdown. The IC50 was determined after 24 hour exposure time.

TABLE 4 Dose response data for various siNAs in Huh 7 cells. Calculated maximum ΔΔCt is determined from the dose response curve. Mean SD POTENCY 50 IC50 siNA Duplex ID ΔΔCt ΔΔCt (nM) (nM) R-008362824-000R 4.18 0.09 0.02 0.02 R-008362821-000P 4.16 0.01 0.02 0.02 R-008363031-000Y 4.10 0.24 0.01 0.01 R-008362785-000U 4.00 0.31 0.03 0.03 R-008362686-000T 3.98 0.18 0.07 0.06 R-008362782-000T 3.95 0.55 0.05 0.04 R-008362875-000L 3.61 0.36 0.02 0.02 R-008308997-000F 3.59 0.14 0.02 0.02 R-008362722-000N 3.58 0.23 0.03 0.02 R-008362791-000B 3.51 0.89 0.02 0.01 R-008362932-000A 3.48 0.46 0.02 0.02 R-008362689-000U 3.39 0.81 0.02 0.02 R-008363043-000H 3.29 0.01 0.02 0.02 R-008363073-000K 3.21 0.45 0.10 0.08 R-008362812-000F 3.07 0.40 0.03 0.03 R-008362947-000L 3.07 0.28 0.02 0.01 R-008363070-000J 2.91 0.10 0.01 0.01

Additional siNAs from Tables 3a & 32b were further analyzed for efficacy and potency in MK2D cells using dose response curves. The results for these siNAs are shown in Table 5. The potency 50 is the calculated siNA transfection concentration that produces 50% target mRNA knockdown. The IC50 was determined after 24 hour exposure time.

TABLE 5 Dose response data for various siNAs in MK2D cells. Calculated maximum ΔΔCt is determined from the dose response curve. Mean SD IC50 siNA Duplex ID ΔΔCt ΔΔCt (nM) R-008380929-000H002 6.8 0.03 0.004 R-008488882-000B001 5.8 0.01 0.004 R-008488885-000C001 6.1 0.03 0.007 R-008488887-000V001 6.6 0.02 0.004 R-008488889-000M001 6.4 0.23 0.005

Example 2 Determining in Vitro Serum Stability of siNAs

siNAs are reconstituted as 50 μM to 100 μM stock solution with H₂O and added to human serum pre-warmed to 37° C. to a final concentration of 20 μg/mL. The mixture is then incubated at 37° C. for 0, 1 and 2 hours. At the end of each time point, the reactions are stopped by mixing with equal volume of Phenomenex Lysis-Loading Buffer. Oligonucleotides are purified in 96-well format by Phenomenex Solid Phase Extraction and lyophilized until dry with Labconco Triad Lyo-00417. The lyophilized samples are reconstituted in 150 μL of 1 mM EDTA prepared with RNase-free H₂O. The sample solutions re then diluted 5 fold with 1 mM EDTA for liquid chromatography/mass spectrometry (LC/MS) analysis on ThermoFisher Orbitrap. Serum metabolites of the siNAs were determined based on the measured molecular weights.

Example 3 Testing of Cytokine Induction

To assess immunostimulative effects of various siNAs of the invention loaded in lipid nanoparticles (DLinDMA/Cholesterol/S-PEG-C-DMA/DSPC in a 40/48/2/10 ratio), C57Bl/6 mice are dosed with a single 3 mpk dose of LNP formulated siNAs through tail vein injection. Serum or plasma samples are collected at 3 and 24 hours post-dose. The cytokine and chemokine levels in these samples is measured with the SearchLight IR Cytokine Array from Aushon Biosciences according to the manufacturer's instruction. The cytokines and chemokines measured are IL-1α, IL-1β, IL-6, KC, IL-10, IFNγ, TNF, GMCSF, MIP-1β, MCP-1/JE, and RANTES.

Example 4 Efficacy Studies in Mouse

Mice are dosed IV via tail vein injections with LNP encapsulated siNAs or vehicle control using 2 different 3-week dosing schemes: one 1 mg/kg dose for 3 consecutive days or a single 6 mg/kg does per week. In some experiments, the mice are co-dosed with sorafenib at a dose of 100 mg/kg BID every day for 3 weeks. Total tumor burden is measured by micro-CT scan imaging. The animals are sacrificed 5 days after the last siNA dose (Day 23), and normal liver and tumor tissues from each animal is collected for RNA purification. Total RNA is purified using RNeasy 96 kit (Qiagen, Cat#74182). cDNA is generated from total RNA using High Capacity cDNA Reverse Transcription Kit (Cat#: 4368813). Quantitative PCR reactions are performed with TaqMan Universal PCR Master Mix (Cat#: 4304437). Human CTNNB1 TaqMan Gene Expression Assay (Hs00355045_m1) and human GAPDH TaqMan Gene Expression Assay is used to monitor the mRNA level of both transcripts in tumor tissue. Mouse CTNNB1 TaqMan Gene Expression Assay (Mm00483033_m1) and mouse GAPDH TaqMan Gene Expression Assay is used to monitor the mRNA level of both transcripts in liver tissue. The expression level of CTNNB1 is normalized against GAPDH to minimize technical variations.

Example 5 Pharmacodynamic Study in Non-Human Primates

Rhesus macaque monkeys are dosed with a single 2.5 mpk dose of siNA loaded lipid nanoparticles through intravenous infusion. To monitor target mRNA knockdown, liver biopsies are performed at various time points pre- and post-dose with 16T gauge Menghini needles for about 20 mg tissue per animal. Whole blood and serum/plasma is also collected at different time points pre- and post-dose to monitor potential toxicity associated with the treatments. All procedures adhere to the regulations outlined in the USDA Animal Welfare Act (9 CFR, Parts 1, 2 and 3) and the conditions specified in The Guide for Care and Use of Laboratory Animals (ILAR publication, 1996, National Academy Press). Total RNA from the liver biopsy tissue was purified using RNeasy 96 kit (Qiagen, Cat#74182). cDNA was generated from total RNA using High Capacity cDNA Reverse Transcription Kit (Cat#: 4368813). Quantitative PCR reactions were performed with TaqMan Universal PCR Master Mix (Cat#: 4304437). Human CTNNB1 TaqMan Gene Expression Assay (Hs00355045_m1) and rhesus GAPDH TaqMan Gene Expression Assay (Rh02621745_g1) is used to monitor the mRNA level of both transcripts in liver biopsy tissue. The expression level of CTNNB1 is normalized against GAPDH to minimize technical variations.

LNP formulations (DLinDMA/Cholesterol/S-PEG-C-DMA/DSPC in a 40/48/2/10 ratio) comprising the siNA are tested. Log 2(fold change) in CTNNB1 gene expression is determined on days 3, 7, 14, and 28 days post-dosing. Pre-dose CTNNB1 expression levels for the monkey is measured 7 days before the first dosing.

Example 6 Pharmacodynamic Studies in Mouse

Mice were dosed IV via tail vein injections with LNP encapsulated siNAs or vehicle control using a single 0.33 mg/kg. Five animals which received each treatment were sacrificed 2, 7, 14 and 21 days after the siNA dose, and liver tissues from each animal was collected for RNA purification. Total RNA was purified using RNeasy 96 kit (Qiagen, Cat#74182). cDNA was generated from total RNA using High Capacity cDNA Reverse Transcription Kit (Cat#: 4368813). Quantitative PCR reactions were performed with TaqMan Universal PCR Master Mix (Cat#: 4304437). Mouse CTNNB1 TaqMan Gene Expression Assay (Mm00483033_m1) and mouse GAPDH TaqMan Gene Expression Assay was used to monitor the mRNA level of both transcripts. The expression level of CTNNB1 was normalized against GAPDH to minimize technical variations. Data is shown in Table 6.

TABLE 6 In vivo screening data in C57B1/6 mice, recorded as log 2(fold change) in CTNNB1 gene expression. Day 2 Day 7 Day 14 Day 21 Mouse Mouse Mouse Mouse Mouse Mouse Mouse Mouse Mean SD Mean SD Mean SD Mean SD ΔΔCT ΔΔCT ΔΔCT ΔΔCT ΔΔCT ΔΔCT ΔΔCT ΔΔCT PBS 0.00 0.23 0.00 0.21 0.00 0.16 0.00 0.15 R-008380929-000H 2.95 0.27 2.76 0.14 2.33 0.09 1.95 0.33 R-008381104-000W 2.90 0.21 2.43 0.26 1.77 0.30 1.32 0.23 R-008488882-000B 3.21 0.37 2.86 0.33 2.34 0.14 1.93 0.18 R-008488885-000C 2.44 0.13 1.35 0.22 0.59 0.17 0.58 0.31 R-008488887-000V 2.11 0.31 1.76 0.14 0.94 0.42 1.05 0.32 R-008488889-000M 2.31 0.22 1.87 0.35 1.30 0.10 0.86 0.17

Example 7 Pharmacodynamic Study in Non-Human Primates

Rhesus macaque monkeys were dosed with a single 3.34 mg/m² of body surface area dose of siNA loaded lipid nanoparticles through intravenous infusion. To monitor target mRNA knockdown, liver biopsies were performed at various time points pre- and post-dose with 16T gauge Menghini needles for about 20 mg tissue per animal. Whole blood and serum/plasma is also collected at different time points pre- and post-dose to monitor potential toxicity associated with the treatments. All procedures adhered to the regulations outlined in the USDA Animal Welfare Act (9 CFR, Parts 1, 2 and 3) and the conditions specified in The Guide for Care and Use of Laboratory Animals (ILAR publication, 1996, National Academy Press). Total RNA from the liver biopsy tissue was purified using RNeasy 96 kit (Qiagen, Cat#74182). cDNA was generated from total RNA using High Capacity cDNA Reverse Transcription Kit (Cat#: 4368813). Quantitative PCR reactions were performed with TaqMan Universal PCR Master Mix (Cat#: 4304437). Human CTNNB1 TaqMan Gene Expression Assay (Hs00355045_m1) and rhesus GAPDH TaqMan Gene Expression Assay (Rh02621745_g1) was used to monitor the mRNA level of both transcripts in liver biopsy tissue. The expression level of CTNNB1 was normalized against GAPDH to minimize technical variations. Data is shown in Table 7. LNP formulations (DLinDMA/Cholesterol/S-PEG-C-DMA/DSPC in a 40/48/2/10 ratio) comprising the siNA were tested. Log 2(fold change) in CTNNB1 gene expression was determined on days 2 and 7 days post-dosing. Pre-dose CTNNB1 expression levels for the monkey is measured 6 days before the first dosing.

TABLE 7 In vivo screening data in rhesus, recorded as log 2(fold change) in CTNNB1 gene expression. Day-6 Day 2 Day 7 Rhesus Rhesus Rhesus Rhesus Rhesus Rhesus Mean SD Mean SD Mean SD LNP siNA duplex ΔΔCT ΔΔCT ΔΔCT ΔΔCT ΔΔCT ΔΔCT PBS 0.00 0.37 0.00 0.24 0.00 0.25 LNP-2 R-008488882-000B −0.11 0.20 1.41 0.35 0.73 0.56 LNP-4 R-008488885-000C −0.15 0.13 1.79 0.46 1.64 0.59 LNP-1 R-008488889-000M 0.02 0.29 1.59 0.43 1.44 0.60 LNP-3 R-008380929-000H −0.10 0.25 1.89 0.17 1.60 0.04

Example 8 Short Interfering Nucleic Acid Lipid Nanoparticle (LNP) Formulations

A. General LNP Process Description for LNP Formulations:

The lipid nanoparticles were prepared by an impinging jet process. The particles were formed by mixing lipids dissolved in alcohol with siNA dissolved in a citrate buffer. The lipid solution contained a cationic lipid, a helper lipid (cholesterol), PEG (e.g. PEG-C-DMA, PEG-DMG) lipid, and DSPC at a concentration of 5-15 mg/mL with a target of 9-12 mg/mL in an alcohol (for example ethanol). The ratio of the lipids had a mole percent range of 25-98 for the cationic lipid with a target of 35-65, the helper lipid had a mole percent range from 0-75 with a target of 30-50, the PEG lipid has a mole percent range from 1-15 with a target of 1-6, and the DSPC had a mole percent range of 0-15 with a target of 0-12. The siNA solution contained one or more siNA sequences at a concentration range from 0.3 to 0.6 mg/mL with a target of 0.3-0.9 mg/mL, in a sodium citrate buffered salt solution with pH in the range of 3.5-5. The two solutions were heated to a temperature in the range of 15-40° C., targeting 30-40° C., and then mixed in an impinging jet mixer instantly forming the LNP. The teeID had a range from 0.25 to 1.0 mm and a total flow rate from 10-600 mL/minute. The combination of flow rate and tubing ID had the effect of controlling the particle size of the LNPs between 30 and 200 nm. The LNP suspension was then mixed with a buffered solution at a higher pH with a mixing ratio in the range of 1:1 to 1:3 vol:vol, but targeting 1:2 vol:vol. This buffered solution was at a temperature in the range of 15-40° C., targeting 30-40° C. This LNP suspension was further mixed with a buffered solution at a higher pH and with a mixing ratio in the range of 1:1 to 1:3 vol:vol, but targeting 1:2 vol:vol. The buffered solution was at a temperature in the range of 15-40° C., targeting 30-40° C. The mixed LNPs were held from 30 minutes to 2 hrs prior to an anion exchange filtration step. The temperature during incubating was in the range of 15-40° C., targeting 30-40° C. After incubating, the LNP suspension was filtered through a 0.8 um filter containing an anion exchange separation step. This process used tubing IDs ranging from 1 mm ID to 5 mm ID and a flow rate from 10 to 2000 mL/minute The LNPs were concentrated and diafiltered via an ultrafiltration process where the alcohol was removed and the citrate buffer was exchanged for the final buffer solution such as phosphate buffered saline. The ultrafiltration process used a tangential flow filtration format (TFF). This process used a membrane nominal molecular weight cutoff range from 30-500 KD. The membrane format was hollow fiber or flat sheet cassette. The TFF processes with the proper molecular weight cutoff retained the LNP in the retentate and the filtrate or permeate contained the alcohol; citrate buffer; and final buffer wastes. The TFF process is a multiple step process with an initial concentration to a siNA concentration of 1-3 mg/mL. Following concentration, the LNP suspension was diafiltered against the final buffer for 10-20 volumes to remove the alcohol and perform buffer exchange. The material was then concentrated an additional 1-3 fold. The final steps of the LNP process were to sterile filter the concentrated LNP solution and vial the product.

Analytical Procedure:

1) siNA Concentration

The siNA duplex concentrations were determined by Strong Anion-Exchange High-Performance Liquid Chromatography (SAX-HPLC) using Waters 2695 Alliance system (Water Corporation, Milford Mass.) with a 2996 PDA detector. The LNPs, otherwise referred to as RNAi Delivery Vehicles (RDVs), were treated with 0.5% Triton X-100 to free total siNA and analyzed by SAX separation using a Dionex BioLC DNAPac PA 200 (4×250 mm) column with UV detection at 254 nm. Mobile phase was composed of A: 25 mM NaClO₄, 10 mM Tris, 20% EtOH, pH 7.0 and B: 250 mM NaClO₄, 10 mM Tris, 20% EtOH, pH 7.0 with a liner gradient from 0-15 min and a flow rate of 1 ml/minute. The siNA amount was determined by comparing to the siNA standard curve.

2) Encapsulation Rate

Fluorescence reagent SYBR Gold was employed for RNA quantitation to monitor the encapsulation rate of RDVs. RDVs with or without Triton X-100 were used to determine the free siNA and total siNA amount. The assay is performed using a SpectraMax M5e microplate spectrophotometer from Molecular Devices (Sunnyvale, Calif.). Samples were excited at 485 nm and fluorescence emission was measured at 530 nm. The siNA amount is determined by comparing to an siNA standard curve. Encapsulation rate=(1−free siNA/total siNA)×100%

3) Particle Size and Polydispersity

RDVs containing 1 μg siNA were diluted to a final volume of 3 ml with 1×PBS. The particle size and polydispersity of the samples was measured by a dynamic light scattering method using ZetaPALS instrument (Brookhaven Instruments Corporation, Holtsville, N.Y.). The scattered intensity was measured with He—Ne laser at 25° C. with a scattering angle of 90°.

4) Zeta Potential Analysis

RDVs containing 1 μg siNA were diluted to a final volume of 2 ml with 1 mM Tris buffer (pH 7.4). Electrophoretic mobility of samples was determined using ZetaPALS instrument (Brookhaven Instruments Corporation, Holtsville, N.Y.) with electrode and He—Ne laser as a light source. The Smoluchowski limit was assumed in the calculation of zeta potentials.

5) Lipid Analysis

Individual lipid concentrations were determined by Reverse Phase High-Performance Liquid Chromatography (RP-HPLC) using Waters 2695 Alliance system (Water Corporation, Milford Mass.) with a Corona charged aerosol detector (CAD) (ESA Biosciences, Inc, Chelmsford, Mass.). Individual lipids in RDVs were analyzed using an Agilent Zorbax SB-C18 (50×4.6 mm, 1.8 μm particle size) column with CAD at 60° C. The mobile phase was composed of A: 0.1% TFA in H₂O and B: 0.1% TFA in IPA. The gradient changed from 60% mobile phase A and 40% mobile phase B from time 0 to 40% mobile phase A and 60% mobile phase B at 1.00 min; 40% mobile phase A and 60% mobile phase B from 1.00 to 5.00 min; 40% mobile phase A and 60% mobile phase B from 5.00 min to 25% mobile phase A and 75% mobile phase B at 10.00 min; 25% mobile phase A and 75% mobile phase B from 10.00 min to 5% mobile phase A and 95% mobile phase B at 15.00 min; and 5% mobile phase A and 95% mobile phase B from 15.00 to 60% mobile phase A and 40% mobile phase B at 20.00 min with a flow rate of 1 ml/minute. The individual lipid concentration was determined by comparing to the standard curve with all the lipid components in the RDVs with a quadratic curve fit. The molar percentage of each lipid was calculated based on its molecular weight.

B. General LNP Preparation for Various Formulations in Table 11

siNA nanoparticle suspensions in Table 11 were prepared by dissolving siNAs and/or carrier molecules in 20 mM sodium citrate buffer (pH 5.0) at a concentration of about 0.40 mg/mL. Lipid solutions were prepared by dissolving a mixture of cationic lipid (e.g., (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine, see structure in Table 12), DSPC, Cholesterol, and PEG-DMG (ratios shown in Table 11) in absolute ethanol at a concentration of about 8 mg/mL. The nitrogen to phosphate ratio was approximated to 6:1.

Nearly equal volumes of siNA/carrier and lipid solutions were delivered with two FPLC pumps at the same flow rates to a mixing T connector. A back pressure valve wais used to adjust to the desired particle size. The resulting milky mixture was collected in a sterile glass bottle. This mixture was then diluted with an equal volume of citrate buffer, followed by equal volume of PBS (pH 7.4), and filtered through an ion-exchange membrane to remove any free siNA/carrier in the mixture. Ultra filtration against PBS (7.4)) was employed to remove ethanol and to exchange buffer. The final LNP was obtained by concentrating to the desired volume and sterile filtered through a 0.2 μm filter. The obtained LNPs were characterized in term of particle size, Zeta potential, alcohol content, total lipid content, nucleic acid encapsulated, and total nucleic acid concentration.

LNP Manufacture Process

In a non-limiting example, LNPs were prepared in bulk as follows. The process consisted of (1) preparing a lipid solution; (2) preparing an siNA/carrier solution; (3) mixing/particle formation; (4) incubation; (5) dilution; (6) ultrafiltration and concentration.

1. Preparation of Lipid Solution

2 L glass reagent bottles and measuring cylinders were depyrogenated. The lipids were warmed to room temperature. Into the glass reagent bottle was transferred 8.0 g of (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine with a pipette and 1.2 g of DSPC, 3.5 g of Cholesterol, 0.9 g of PEG-DMG were added. To the mixture is added 1 L of ethanol. The reagent bottle was placed in heated water bath, at a temperature not exceeding 50° C. The lipid suspension was stirred with a stir bar. A thermocouple probe was put into the suspension through one neck of the round bottom flask with a sealed adapter. The suspension was heated at 30-40° C. until it became clear. The solution was allowed to cool to room temperature.

2. Preparation of siNA/Carrier Solution

Into a sterile container (Corning storage bottle) was weighed 0.4 g times the water correction factor (approximately 1.2) of siNA powder. The siNA was transferred to a depyrogenated 2 L glass reagent bottle. The weighing container was rinsed 3× with citrate buffer (20 mM, pH 5.0) and the rinses were placed into the 2 L glass bottle, QS with citrate buffer to 1 L. The concentration of the siNA solution was determined with a UV spectrometer using the following procedure. 20 μL was removed from the solution, diluted 50 times to 1000 μL, and the UV reading recorded at A260 nm after blanking with citrate buffer. This was repeated. Note, if the readings for the two samples are consistent, an average can be taken and the concentration calculated based on the extinction coefficients of the siNAs. If the final concentration is out of the range of 0.40±0.01 mg/mL, the concentration can be adjusted by adding more siNA/carrier powder, or adding more citrate buffer. This process can be repeated for the second siNA, if applicable

When the siNA/carrier solution comprised a single siNA duplex instead of a cocktail of two or more siNA duplexes and/or carriers, then the siNA/carrier was dissolved in 20 mM citrate buffer (pH 5.0) to give a final concentration of 0.4 mg/mL.

The lipid and ethanol solutions were then sterile filtered through a Pall Acropak 20 0.8/0.2 μm sterile filter PN 12203 into a depyrogenated glass vessel using a Master Flex Peristaltic Pump Model 7520-40 to provide a sterile starting material for the encapsulation process. The filtration process was run at an 80 mL scale with a membrane area of 20 cm². The flow rate was 280 mL/minute. This process can be scaled by increasing the tubing diameter and the filtration area.

3. Particle Formation—Mixing Step

Using a two-barrel syringe driven pump (Harvard 33 Twin Syringe), the sterile lipid/ethanol solution and the sterile siNA/carrier or siNA/carrier cocktail/citrate buffer (20 mM citrate buffer, pH 5.0) solutions were mixed in a 0.5 mm ID T-mixer (Mixing Stage I) at equal, or nearly equal, flow rates. The resulting outlet LNP suspension contained 40-50 vol % ethanol. To obtain a 45 vol % ethanol outlet suspension, the sterile lipid/ethanol and the sterile siNA/carrier or siNA/carrier cocktail/citrate buffer solutions were mixed at flow rates of 54 mL/min and 66 mL/min, respectively, such that the total flow rate of the mixing outlet is 120 mL/min.

4. Dilution

The outlet stream of Mixing Stage I was fed directly into a 4 mm ID T-mixer (Mixing Stage II), where it was diluted with a buffered solution at higher pH (20 mM sodium citrate, 300 mM sodium chloride, pH 6.0) at a ratio of 1:1 vol:vol %. This buffered solution was at a temperature in the range of 30-40° C., and was delivered to the 4 mm T-mixer via a peristaltic pump (Cole Parmer MasterFlex L/S 600 RPM) at a flow rate of 120 mL/min.

The outlet stream of Mixing Stage II was fed directly into a 6 mm ID T-mixer (Mixing Stage III), where it was diluted with a buffered solution at higher pH (PBS, pH 7.4) at a ratio of 1:1 vol:vol %. This buffered solution was at a temperature in the range of 15-25° C., and was delivered to the 6 mm T-mixer via peristaltic pump (Cole Parmer MasterFlex L/S 600 RPM) at a flow rate of 240 mL/min.

5. Incubation and Free siNA Removal

The outlet stream of Mixing Stage III was held after mixing for 30 minute incubation. The incubation was conducted at temperature of 35-40° C. and the in-process suspension was protected from light. Following incubation, free (un-encapsulated) siNA was removed via anion exchange with Mustang Q chromatography filters (capsules). Prior to use, the chromatography filters were pre-treated sequentially with flushes of 1N NaOH, 1M NaCl, and a final solution of 12.5 vol % ethanol in PBS. The pH of the final flush was checked to ensure pH<8. The incubated LNP stream was then filtered via Mustang Q filters via peristaltic pump (Cole Parmer MasterFlex L/S 600 RPM) at flow rate of approximately 100 mL/min. The filtered stream was received into a sterile glass container for ultrafiltration and concentration as follows.

6. Ultrafiltration, Concentration and Sterile Filtration

The ultrafiltration process is a timed process and the flow rates must be monitored carefully. This is a two step process; the first is a concentration step taking the diluted material and concentrating approximately 8-fold, to a concentration of approximately 0.3-0.6 mg/mL siNA.

In the first step, a ring-stand with a ultrafiltration membrane 100 kDa PES (Spectrum Labs) installed was attached to a peristaltic pump (Spectrum KrosFloII System). 9.2 L of sterile distilled water was added to the reservoir; 3 L was drained to waste and the remainder was drained through permeate to waste. 5.3 L of 0.25 N sodium hydroxide was added to the reservoir with 1.5 L drained to waste and 3.1 L drained through permeate to waste. The remaining sodium hydroxide was held in the system for sanitization (at least 10 minutes), and then the pump was drained. 9.2 L of 70 (v/v) % isopropyl alcohol was added to the reservoir with 1.5 L drained to waste and the remainder drained through permeate to waste. 6 L of conditioning buffer (12.5% ethanol in phosphate buffered saline) was added with 1.5 L drained to waste and the remainder drained though the permeate until the waste was of neutral pH (7-8). A membrane flux value was recorded, and the pump was then drained.

The diluted LNP solution was placed into the reservoir to the 1.1 L mark. The pump was turned on at 2.3 L/min. After 5 minutes of recirculation, the permeate pump was turned on at 62.5 mL/min and the liquid level was constant at approximately 950 mL in the reservoir. The diluted LNP solution was concentrated from 9.8 L to 1.1 L in 140 minutes, and the pump was paused when all the diluted LNP solution has been transferred to the reservoir.

The second step was a diafiltration step exchanging the ethanol/aqueous buffer to phosphate buffered saline. During this step, approximately 10-20 diafiltration volumes of phosphate buffered saline were used. Following diafiltration, a second concentration was undertaken to concentrate the LNP suspension 3-fold to approximately 1-1.5 mg/mL siRNA. The concentrated suspension was collected into sterile, plastic PETG bottles. The final suspension was then filtered sequentially via Pall 0.45 um PES and Pall 0.2 um PES filters for terminal sterilization prior to vial filling.

The obtained LNPs were characterized in terms of particle size, Zeta potential, alcohol content, total lipid content, nucleic acid encapsulated, and total nucleic acid concentration.

C. Synthesis of Novel Cationic Lipids

Synthesis of the novel cationic lipids is a linear process starting from lipid acid (i). Coupling to N,O-dimethyl hydroxylamine gives the Weinreb amide ii. Grignard addition generates ketone iii. Titanium mediated reductive amination gives final products of type iv.

Synthesis of the single carbon homologated cationic lipids v is a linear process starting from lipid ketone (iii). Conversion of the ketone to the nitrile (iv) is accomplished via treatment with TOSMIC and potassium tert-butoxide. Reduction of the nitrile to the primary amine followed by reductive amination provides final cationic lipids v.

Synthesis of two carbon homologated cationic lipids viii is a linear process starting from lipid ketone (iii). Conversion of the ketone to the α,β-unsaturated amide vi is accomplished under Peterson conditions. Conjugate reduction of the α,β-unsaturation is performed using LS-Selectride to give amide vii. Reduction of the amide with lithium aluminum hydride provides final cationic lipids viii.

Cyclopropyl containing lipids are prepared according to General Scheme 4. Unsaturated Weinreb amides ii are subjected to Simmons-Smith cyclopropanation conditions to give cyclopropyl containing Weinreb amides ix. These are carried on to final products as outlined in General Schemes 1-3.

Synthesis of allylic amine cationic lipids xv is a linear process starting with aldehyde x. Addition of t-butyl aceate generates β-hydroxy ester xi. Conversion of the hydroxyl functionality to a fluoro group followed by acid treatment generates β-fluoro acid xii. Conversion of the acid to the Weinreb amide followed by Grignard addition gives the β-fluoro ketone xiv. Reductive amination results in simultaneous elimination to generate the desired allylic amine xv.

20,23-nonacosadien-10-amine, N,N,-dimethyl-,(20Z,23Z) (Compound 1)

11,14-Eicosadienoic acid, (11Z,14Z)—(50 g, 162 mmol), N,O-Dimethylhydroxylamine hydrochloride (31.6 g, 324 mmol), HOAt (44.1 g, 324 mmol), Et₃N (45.2 mL, 324 mmol), and EDC (62.1 g, 324 mmol) were mixed in DCM (810 mL) and stirred overnight at ambient temperature. Reaction was then washed 5×700 mL water, then washed 1×600 mL 1 M NaOH, dried with sodium sulfate, filtered through celite and evaporated to obtain 53.06 g (93%) 11,14-eicosadienamide, N-methoxy-N-methyl-, (11Z,14Z) as a clear golden oil.

¹H NMR (400 MHz, CDCl₃) δ 5.35 (m, 4H), 3.68 (s, 3H), 3.18 (s, 3H), 2.77 (m, 2H), 2.41 (t, J=7 Hz, 2H), 2.05 (m, 4H), 1.63 (m, 2H), 1.40-1.26 (m, 18H), 0.89 (t, J=7 Hz, 3H).

11,14-eicosadienamide, N-methoxy-N-methyl-, (11Z,14Z)-1 (4 g, 11.38 mmol) was dissolved in dry THF (50.0 ml) in a 250 mL flask then 1 M nonylmagnesium bromide (22.76 ml, 22.76 mmol) was added under nitrogen at ambient temperature. After 10 min, the reaction was slowly quenched with excess sat. aq NH₄Cl. The reaction was washed into a separatory funnel with hexane and water, shaken, the lower aqueous layer discarded, the upper layer dried with sodium sulfate, filtered, and evaporated to give crude ketone as a golden oil. To the above crude ketone was added dimethylamine (2 M in THF) (14.22 ml, 28.4 mmol) followed by Ti(O-i-Pr)₄ (6.67 ml, 22.76 mmol) and let stir overnight. The next day, added EtOH (50 ml) followed by NaBH₄ (0.646 g, 17.07 mmol). After 5 min of stirring, directly injected entire reaction onto a 40 g silica column that was in line with a 330 g silica column. Eluted 10 min 100% DCM, then 30 min 0-15% MeOH/DCM, collected 20,23-nonacosadien-10-amine, N,N-dimethyl-, (20Z,23Z) (1) (2.45 g, 5.47 mmol, 48.1% yield) as a faintly golden oil. ¹H NMR (400 MHz, CDCl₃) δ 5.35 (m, 4H), 2.78 (m, 2H), 2.23 (m, 1H), 2.21 (s, 6H), 2.05 (m, 4H), 1.45-1.16 (m, 38H), 0.89 (m, 6H). HRMS calcd for C31H61N 448.4877. found 448.4872.

Compounds 2-30 are novel cationic lipids and were prepared according to the General Scheme 1 above.

Compound Structure HRMS 2

calcd C28H56N 406.4407, found 406.4405. 3

calcd C27H54N 392.4251, found 392.4250. 4

calcd C24H48N 350.3781, found 350.3770. 5

calcd C23H46N 336.3625, found 336.3613. 6

calcd C25H50N 364.3938, found 364.3941. 7

calcd C26H52N 378.4094, found 378.4081. 8

calcd C29H58N 420.4564, found 420.4562. 9

calcd C26H52N 378.4094, found 378.4089. 10

calcd C25H50N 364.3938, found 364.3931. 11

calcd C30H60N 434.4720, found 434.4717. 12

calcd C29H58N 420.4564, found 420.4561. 13

calcd C28H56N 406.4407, found 406.4404. 14

calcd C27H54N 392.4251, found 392.4245. 15

calcd C33H66N 476.5190, found 476.5196. 16

calcd C32H64N 462.5033, found 462.5045. 17

calcd C29H59N 422.4720, found 422.4726. 18

calcd C28H57N 408.4564, found 408.4570. 19

calcd C30H59N 434.4720, found 434.4729. 20

calcd C29H61N 424.4877, found 424.4875. 21

calcd C32H64N 462.5033, found 462.5023. 22

calcd C33H64N 474.5033, found 474.5033. 23

calcd C29H60N 422.4720, found 422.4716. 24

calcd C29H60N 422.4720, found 422.4718. 25

calcd C31H64N 450.5033, found 450.5031. 26

calcd C31H64N 450.5033, found 450.5034. 27

calcd C35H72N 506.5659, found 506.5635. 28

calcd C31H64N 450.5033, found 450.5037. 29

calcd C33H68N 478.5346, found 478.5358. 30

calcd C27H56N 394.4407, found 394.4407.

(12Z,15Z)—N,N-dimethyl-2-nonylhenicosa-12,15-dien-1-amine (Compound 31)

A solution of keton iii (4.0 g, 9.55 mmol), TOSMIC (2.4 g, 12.4 mmol) in dimethoxyethane (45 mL) was cooled to 0° C. and treated with potassium tert-butoxide (19.1 mmol, 19.1 mL of a 1M solution in tBuOH). After 90 minutes, the reaction was partitioned between hexanes and water. The organics were washed with water, dried over sodium sulfate, filtered and evaporated in vacuo. This material was purified by flash chromatography (0-5% EtOAc/hexanes) to give desired product (containing ˜20% of s.m.). This mixture was carried into next step as is. LC/MS (M+H)=430.6.

Lithium aluminum hydride (23.9 mmol, 23.9 mL of a 1M solution in THF) was added directly to nitrile iv (3.42 g, 8 mmol) at ambient temperature and the reaction was stirred for 20 minutes. The reaction was diluted with 100 mL THF, cooled to 0° C. and carefully quenched with sodium sulfate decahydrate solution. The solids were filtered off and washed with THF. The filtrate was evaporated in vacuo and carried directly into next reaction crude. LC/MS (M+H)=434.6.

A solution of primary amine (3.45 g, 6.2 mmol) in dichloroethane (100 mL) was treated with formaldehyde (1.6 mL, 21.7 mmol) followed by sodium triacetoxyborohydride (6.6 g, 31 mmol). After 5 minutes, the reaction was partitioned between dichloromethane and 1N NaOH. The organics were dried over sodium sulfate, filtered and evaporated in vacuo. The crude mixture was purified by reverse phase preparative chromatography (C8 column) to provide (12Z,15Z)—N,N-dimethyl-2-nonylhenicosa-12,15-dien-1-amine. HRMS calc'd 462.5033. found 462.5026. ¹H NMR (400 MHz, CDCl₃) δ 5.35 (m, 4H), 2.78 (2H, t, J=5.6 Hz), 2.18 (s, 6H), 2.05 (m, 6H), 1.3 (m, 39H), 0.89 (m, 6H).

(13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine (Compound 32)

The silyl amide Peterson reagent (3.1 g, 16.7 mmol) was dissolved in THF (35 mL) and cooled to −63° C. To this solution was added nBuLi (16.7 mmol, 6.7 mL of a 2.5M solution). The reaction was warmed to ambient temperature for 30 minutes. The ketone (5.0 g, 11.9 mmol) was dissolved in THF (25 mL) in a second flask. The Peterson reagent was transferred to the ketone solution at −60° C. The reaction was warmed to −40° C. for 1 hour, then warmed to 0° C. for 30 minutes. The reaction was quenched with sodium bicarbonate, diluted with additional water and partitioned between water/hexanes. The organics were washed with brine, dried over sodium sulfate, filtered and evaporated in vacuo. Purification by flash chromatography (0-40% MTBE/hexanes) gave α,β-unsatured amide vi. ¹H NMR (400 MHz, CDCl₃) δ 5.75 (s, 1H), 5.36 (m, 4H), 3.01 (s, 3H), 2.99 (s, 3H), 2.78 (t, 2H), 2.28 (t, 2H), 2.05 (m, 6H), 1.35 (m, 34H), 0.89 (m, 6H).

α,β-unsatured amide vi (1 g, 2.1 mmol) and LS-Selectride (4.1 mmol, 4.1 mL of a 1M solution) were combined in a sealed tube and heated to 60° C. for 24 hours. The reaction was cooled to ambient temperature and partitioned between ammonium chloride solution and heptane. The organics were dried over sodium sulfate, filtered and evaporated in vacuo to give amide vii. This intermediate was carried directly into next reaction crude.

To a solution of amide vii (2.85 g, 5.8 mmol) was added lithium aluminum hydride (8.7 mmol, 8.7 mL of a 1M solution). The reaction was stirred at ambient temperature for 10 minutes then quenched by slow addition of sodium sulfate decahydrate solution. The solids were filtered and washed with THF and the filtrate evaporated in vacuo. The crude mixture was purified by reverse phase preparative chromatography (C8 column) to provide (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine (Compound 32) as an oil. HRMS (M+H) calc'd 476.5190. found 476.5189. ¹H NMR (400 MHz, CDCl₃) δ 5.37 (m, 4H), 2.78 (t, 2H), 2.42 (m, 8H), 2.05 (q, 4H), 1.28 (m, 41H), 0.89 (m, 6H).

N,N-dimethyl-1-(2-octylcyclopropyl)heptadecan-8-amine (Compound 33)

To a solution of oleic acid (1 g, 3.5 mmol) in DCM (500 mL) cooled to 0° C. was added CDI (0.63 g, 3.9 mmol). The reaction was warmed to ambient temperature for 30 minutes before cooling to 0° C. and treating first with triethylamine (0.39 g, 3.9 mmol) and then dimethyl hydroxylamine hydrochloride (0.38 g, 3.9 mmol). After 1 hour the reaction was partitioned between water and heptane. The organics were dried over magnesium sulfate, filtered and evaporate in vacuo to give crude Weinreb amide ii which was carried directly into next reaction.

A solution of diethylzinc (70.3 mmol, 70.3 mL of a 1M solution) in dichloromethane (130 mL) was cooled to −1° C. and treated dropwise with TFA (8.0 g, 70.3 mmol). After 30 minutes, diiodomethane (18.8 g, 70.3 mmol) was added and this was aged for 30 minutes in the ice bath. To this solution was added Weinreb amide ii (7.6 g, 23.4 mmol). The reaction was warmed to ambient temperature and stirred for 1 hour. The reaction was quenched with ammonium chloride solution (100 mL) and organic layer partitioned off, washed with 10% sodium thiosulfate, dried over magnesium sulfate, filtered and evaporated in vacuo. Purification was flash chromatography (0-30% MTBE/heptane) gave desired product ix. ¹H NMR (400 MHz, CDCl₃) δ 3.72 (s, 3H), 3.22 (s, 3H), 2.48 (t, 2H), 1.65 (m, 2H), 1.39 (m, 22H), 1.18 (m, 2H), 0.91 (t, 3H), 0.68 (m, 2H), 0.59 (m, 1H), −0.32 (m, 1H).

Conversion of Weinreb amide ix to Compound 33 was carried out in a manner analogous to that described for Compound 1 above (nonyl Grignard addition followed by reductive amination). LC/MS (M+H)=436.6. ¹H NMR (400 MHz, CDCl₃) δ 2.25 (s, 6H), 1.30 (m, 45H), 0.91 (m, 6H), 0.68 (m, 2H), 0.59 (m, 1H), −0.31 (m, 1H).

Compounds 34-43 are novel cationic lipids and were prepared according to General Schemes 1-4 above.

Compound Structure HRMS 34

calcd C30H62N 436.4877, found 436.4872. 35

calcd C32H66N 464.5190, found 464.5186. 36

calcd C34H70N 492.5503, found 492.5496. 37

calcd C33H66N 476.5190, found 476.5174. 38

calcd C29H60N 422.4720, found 422.4701. 39

calcd C30H62N 436.4877, found 436.4880. 40

calcd C32H66N 464.5190, found 464.5199. 41

calcd C30H62N 436.4877, found 436.4877. 42

calcd C30H62N 436.4877, found 436.4875. 43

LC/MS (M + H) 408.6.

(11E,20Z,23Z)—N,N-dimethylnonacosa-11,20,23-trien-10-amine (Compound 44)

To a solution of LDA (95 mmol, 47.5 mL of a 2M solution) in THF (127 mL) cooled to −78° C. was added t-butyl acetate. The reaction was stirred for 15 minutes followed by addition of aldehyde x. The reaction was immediately quenched with ammonium chloride solution, warmed to ambient temperature and partitioned between water/pentane. The organics were dried over sodium sulfate, filtered and evaporated in vacuo. LC/MS (M+H-tBu)=325.4.

Hydroxy ketone xi (7 g, 18.4 mmol) was dissolved in dichloromethane (150 mL) and cooled to 0° C. and treated with deoxofluor (7.3 g, 33.1 mmol). The reaction was warmed to ambient temperature with stirring for 16 hours followed by quenching with sodium bicarbonate solution. The reaction was partitioned and the organics dried over sodium sulfate, filtered and evaporate in vacuo. Flash column chromotagraphy (0-5% ethyl acetate/hexanes) gave the-fluoro ester.

Fluoro ester intermediate (6 g, 15.6 mmol) in dichloromethane was treated with hydrogen chloride (157 mmol, 39.2 mL of a 4M solution in dioxane) and the reaction was stirred at ambient temperature for 16 hours. The reaction was evaporated in vacuo to give desired β-fluoro acid xii. LC/MS (M+H)=327.3.

Fluoro carboxylic acid xii (5.1 g, 15.7 mmol), EDC (6.0 g, 31.4 mmol), N,O-dimethylhydroxylamine hydrochloride (3.1 g, 31.4 mmol), trimethylamine (4.0 g, 39.2 mmol), and HOAt (4.3 g, 31.4 mmol) were combined in DCM (78 mL) and stirred at ambient temperature for 16 hours. The reaction was partitioned between water/DCM and the organics were washed with water (3×) and NaOH solution (1×), dried over sodium sulfate, filtered and evaporated in vacuo. Crude material was purified by reverse phase preparative chromatography to give desired Weinreb amide xiii LC/MS (M+H)=370.4.

A solution of Weinreb amide xiii (4.3 g, 11.7 mmol) in THF (50 mL) was treated with nonylmagnesium bromide (23.4 mmol, 23.4 mL of a 1M solution) at ambient temperature. The reaction was quenched with ammonium chloride solution after 1 hour and partitioned between water and pentane. The organics were dried over sodium sulfate, filtered and evaporated in vacuo. This material was carried into next step crude.

Ketone xiv (5.1 g, 11.7 mmol) was treated with dimethylamine (29.3 mmol, 14.7 mL of a 2M solution in THF) and titanium(IV) isopropoxide (6.7 g, 23.5 mmol) and the reaction was stirred at ambient temperature for 16 hours. To the reaction mixture was added ethanol (50 mL) followed by sodium borohydride (0.67 g, 17.6 mmol). The reaction was loaded directly onto a silica column and purified by flash chromatography (0-15% MeOH/DCM). The material required a second purification by preparative reverse phase chromatography to give (11E,20Z,23Z)—N,N-dimethylnonacosa-11,20,23-trien-10-amine. HRMS calc'd 446.4720. found 446.4724. ¹H NMR (400 MHz, CDCl₃) δ 5.48 (m, 1H), 5.37 (m, 4H), 5.23 (m, 1H), 2.78 (t, 2H), 2.58 (m, 1H), 2.22 (s, 6H), 2.04 (m, 6H), 1.56 (m, 1H), 1.30 (m, 31H), 0.89 (m, 6H).

Compound 45 is DLinKC2DMA as described in Nature Biotechnology, 2010, 28, 172-176, WO 2010/042877 A1, WO 2010/048536 A2, WO 2010/088537 A2, and WO 2009/127060 A1.

Compound 46 is MC3 as described in WO 2010/054401, and WO 2010/144740 A1.

D. Lipid Nanoparticle Compositions

The following lipid nanoparticle compositions (LNPs) of the instant invention are useful for the delivery of oligonucleotides, specifically siNA molecules of the invention:

Cationic Lipid/Cholesterol/PEG-DMG 56.6/38/5.4;

Cationic Lipid/Cholesterol/PEG-DMG 60/38/2;

Cationic Lipid/Cholesterol/PEG-DMG 67.3/29/3.7;

Cationic Lipid/Cholesterol/PEG-DMG 49.3/47/3.7;

Cationic Lipid/Cholesterol/PEG-DMG 50.3/44.3/5.4;

Cationic Lipid/Cholesterol/PEG-C-DMA/DSPC 40/48/2/10;

Cationic Lipid/Cholesterol/PEG-DMG/DSPC 40/48/2/10; and

Cationic Lipid/Cholesterol/PEG-DMG/DSPC 58/30/2/10.

One skilled in the art would readily appreciate that the present invention is well adapted to carry out the objects and obtain the ends and advantages mentioned, as well as those inherent therein. The methods and compositions described herein, as presently representative of preferred embodiments, are exemplary and are not intended as limitations on the scope of the invention. Changes therein and other uses will occur to those skilled in the art, which are encompassed within the spirit of the invention, are defined by the scope of the claims.

TABLE 8 CTNNB1 Accession Numbers NM_001098210 Homo sapiens catenin (cadherin-associated protein), beta 1, 88 kDa, (CTNNB1), transcript variant 3, mRNA. NM_001098210.1 GI:148227671 NM_007614 Mus musculus catenin (cadherin associated protein), beta 1(Ctnnb1), transcript variant 1, mRNA NM_007614.2 GI:31560726 XM_001115474 Macaca mulatta catenin (cadherin-associated protein), beta 1, 88 kDa, transcript variant (CTNNB1), mRNA. XM_001115474.1 GI:109041278

TABLE 9 Non-limiting examples of Stabilization Chemistries for chemically modified siNA constructs Non-limiting examples of Stabilization Chemistries for chemically modified siNA constructs Chemistry pyrimidine purine caps p = S Strand “Stab 00” Ribo Ribo TT at 3′- S/AS ends “Stab 1” Ribo Ribo — 5 at 5′-end S/AS 1 at 3′-end “Stab 2” Ribo Ribo — All linkages Usually AS “Stab 3” 2′-fluoro Ribo — 4 at 5′-end Usually S 4 at 3′-end “Stab 4” 2′-fluoro Ribo 5′ and 3′- — Usually S ends “Stab 5” 2′-fluoro Ribo — 1 at 3′-end Usually AS “Stab 6” 2′-O- Ribo 5′ and 3′- — Usually S Methyl ends “Stab 7” 2′-fluoro 2′-deoxy 5′ and 3′- — Usually S ends “Stab 8” 2′-fluoro 2′-O- — 1 at 3′-end S/AS Methyl “Stab 9” Ribo Ribo 5′ and 3′- — Usually S ends “Stab 10” Ribo Ribo — 1 at 3′-end Usually AS “Stab 11” 2′-fluoro 2′-deoxy — 1 at 3′-end Usually AS “Stab 12” 2′-fluoro LNA 5′ and 3′- Usually S ends “Stab 13” 2′-fluoro LNA 1 at 3′-end Usually AS “Stab 14” 2′-fluoro 2′-deoxy 2 at 5′-end Usually AS 1 at 3′-end “Stab 15” 2′-deoxy 2′-deoxy 2 at 5′-end Usually AS 1 at 3′-end “Stab 16” Ribo 2′-O- 5′ and 3′- Usually S Methyl ends “Stab 17” 2′-O- 2′-O- 5′ and 3′- Usually S Methyl Methyl ends “Stab 18” 2′-fluoro 2′-O- 5′ and 3′- Usually S Methyl ends “Stab 19” 2′-fluoro 2′-O- 3′-end S/AS Methyl “Stab 20” 2′-fluoro 2′-deoxy 3′-end Usually AS “Stab 21” 2′-fluoro Ribo 3′-end Usually AS “Stab 22” Ribo Ribo 3′-end Usually AS “Stab 23” 2′-fluoro* 2′-deoxy* 5′ and 3′- Usually S ends “Stab 24” 2′-fluoro* 2′-O- — 1 at 3′-end S/AS Methyl* “Stab 25” 2′-fluoro* 2′-O- — 1 at 3′-end S/AS Methyl* “Stab 26” 2′-fluoro* 2′-O- — S/AS Methyl* “Stab 27” 2′-fluoro* 2′-O- 3′-end S/AS Methyl* “Stab 28” 2′-fluoro* 2′-O- 3′-end S/AS Methyl* “Stab 29” 2′-fluoro* 2′-O- 1 at 3′-end S/AS Methyl* “Stab 30” 2′-fluoro* 2′-O- S/AS Methyl* “Stab 31” 2′-fluoro* 2′-O- 3′-end S/AS Methyl* “Stab 32” 2′-fluoro 2′-O- S/AS Methyl “Stab 33” 2′-fluoro 2′-deoxy* 5′ and 3′- — Usually S ends “Stab 34” 2′-fluoro 2′-O- 5′ and 3′- Usually S Methyl* ends “Stab 35” 2′-fluoro*† 2′-O- Usually AS Methyl*† “Stab 36” 2′-fluoro*† 2′-O- Usually AS Methyl*† “Stab04H” 2′-fluoro‡ Ribo‡ 5′ and 3′- 1 at 3′-end Ususally S ends “Stab06C” 2′-O- Ribo‡ 5′ and 3′- Ususally S Methyl‡ ends “Stab07H” 2′-fluoro‡ 2′-deoxy‡ 5′ and 3′- 1 at 3′-end Ususally S ends “Stab07mU” 2′-fluoro‡ 2′-deoxy‡ 5′ and 3′- Ususally S ends “Stab09H” Ribo‡ Ribo‡ 5′ and 3′- 1 at 3′-end Ususally S ends “Stab16C” Ribo‡ 2′-O- 5′ and 3′- Ususally S Methyl‡ ends “Stab16H” Ribo‡ 2′-O- 5′ and 3′- 1 at 3′-end Ususally S Methyl‡ ends “Stab18C” 2′-fluoro‡ 2′-O- 5′ and 3′- Ususally S Methyl‡ ends “Stab18H” 2′-fluoro‡ 2′-O- 5′ and 3′- 1 at 3′-end Ususally S Methyl‡ ends “Stab52H” 2′-O- Ribo‡ 5′ and 3′- 1 at 3′-end Ususally S Methyl‡ ends “Stab05C” 2′-fluoro‡ Ribo‡ Ususally AS “Stab05N” 2′-fluoro‡ Ribo‡ 1 at 3′-end Ususally AS “Stab10C′ Ribo‡ Ribo‡ Ususally AS “Stab10N” Ribo‡ Ribo‡ 1 at 3′-end Ususally AS “Stab35G*” 2′-fluoro‡ 2′-O- Ususally AS Methyl‡ “Stab35N*” 2′-fluoro‡ 2′-O- 1 at 3′-end Ususally AS Methyl‡ “Stab35rev*” 2′-O- 2′-fluoro‡ Ususally AS Methyl‡ “Stab50*” Ribo‡ 2′-O- Ususally AS Methyl‡ “Stab53*” 2′-O- Ribo‡ Ususally AS Methyl‡ “Stab53N*” 2′-O- Ribo‡ 1 at 3′-end Ususally AS Methyl‡ Stab54 Ribo‡ 2′-fluoro‡ Ususally AS CAP = any terminal cap, see for example FIG. 6. All Stab chemistries can be used in combination with each other for duplexes of the invention (e.g., as combinations of sense and antisense strand chemistries), or alternately can be used in isolation, e.g., for single stranded nucleic acid molecules of the invention. All Stab chemistries can comprise 3′-overhang nucleotides having 2′-O-alkyl, 2′-deoxy-2′-fluoro, 2′-deoxy, LNA or other modified nucleotides or non-nucleotides. All Stab chemistries typically comprise about 19-21 nucleotides, but can vary as described herein. All Stab chemistries can also include a single ribonucleotide in the sense or passenger strand at the 11^(th) base paired position of the double-stranded nucleic acid duplex as determined from the 5′-end of the antisense or guide strand. All Stab chemistries can also have in place of the Stab designation above a 2′-deoxy-2′-fluoro modification at position 14 from the 5′ end of the antisense strand regardless of whether it is a purine or pyrimidine at that position. All Stab chemistries of the antisense strand presented above can have a thymidine in place of a 2′-deoxy uridine at position 1, 2, and/or 3 from the 5′ end of the antisense strand. S = sense strand. AS = antisense strand *Stab 23 has a single ribonucleotide adjacent to 3′-CAP. *Stab 24 and Stab 28 have a single ribonucleotide at 5′-terminus. *Stab 25, Stab 26, Stab 27, Stab 35, Stab 35G*, Stab 35N*, Stab 35rev*, Stab 36, Stab 50*, Stab53*, Stab 53N*, and Stab 54 have three ribonucleotides at 5′-terminus. *Stab 29, Stab 30, Stab 31, Stab 33, and Stab 34 any purine at first three nucleotide positions from 5′-terminus are ribonucleotides. p = phosphorothioate linkage. †Stab 35 has 2′-O-methyl U at 3′-overhangs and three ribonucleotides at 5′-terminus. †Stab 36 has 2′-O-methyl overhangs that are complementary to the target sequence, (naturally occurring overhangs) and three ribonucleotides at 5′-terminus. ‡Stab 04H, Stab 06C, Stabl07H, Stab07mU, Stab09H, Stab16C, Stab 16H, Stab18C, Stab 18H, Stab 52H, Stab 05C, Stab05N, Stab10C, Stab10N, Stab35G*, Stab35N*, Stab35N*, Stab35rev*, Stab 50*, Stab 53*, Stab 53N*, Stab 54 have two 2′-O-methyl U 3′-overhangs. Stab35G*, Stab 35N*, Stab35rev*, Stab50*, Stab53*, and Stab53N* do not allow for a 2′-O-methyl modification at position 14 of the guide strand as determined from the 5′-end.

TABLE 10 Exemplary Solid Phase Oligonucleotide Synthsis Conditions Wait Time* Wait Time* 2′-O- Wait Time* Reagent Equivalents Amount DNA methyl RNA A. 2.5 μmol Synthesis Cycle ABI 394 Instrument Phosphoramidites 6.5 163 μL 45 sec 2.5 min 7.5 min S-Ethyl Tetrazole 23.8 238 μL 45 sec 2.5 min 7.5 min Acetic Anhydride 100 233 μL 5 sec 5 sec 5 sec N-CTNNB1hyl 186 233 μL 5 sec 5 sec 5 sec Imidazole TCA 176 2.3 mL 21 sec 21 sec 21 sec Iodine 11.2 1.7 mL 45 sec 45 sec 45 sec Beaucage 12.9 645 μL 100 sec 300 sec 300 sec Acetonitrile NA 6.67 mL NA NA NA B. 0.2 μmol Synthesis Cycle ABI 394 Instrument Phosphoramidites 15 31 μL 45 sec 233 sec 465 sec S-Ethyl Tetrazole 38.7 31 μL 45 sec 233 min 465 sec Acetic Anhydride 655 124 μL 5 sec 5 sec 5 sec N-CTNNB1hyl 1245 124 μL 5 sec 5 sec 5 sec Imidazole TCA 700 732 μL 10 sec 10 sec 10 sec Iodine 20.6 244 μL 15 sec 15 sec 15 sec Beaucage 7.7 232 μL 100 sec 300 sec 300 sec Acetonitrile NA 2.64 mL NA NA NA C. 0.2 μmol Synthesis Cycle 96 well Instrument Equivalents: Amount: Wait Time* DNA/2′-O- DNA/2′-O- Wait Time* 2′-O- Wait Time* Reagent methyl/Ribo methyl/Ribo DNA methyl Ribo Phosphoramidites 22/33/66 40/60/120 μL 60 sec 180 sec 360 sec S-Ethyl Tetrazole 70/105/210 40/60/120 μL 60 sec 180 min 360 sec Acetic Anhydride 265/265/265 50/50/50 μL 10 sec 10 sec 10 sec N-CTNNB1hyl 502/502/502 50/50/50 μL 10 sec 10 sec 10 sec Imidazole TCA 238/475/475 250/500/500 μL 15 sec 15 sec 15 sec Iodine 6.8/6.8/6.8 80/80/80 μL 30 sec 30 sec 30 sec Beaucage 34/51/51 80/120/120 100 sec 200 sec 200 sec Acetonitrile NA 1150/1150/1150 μL NA NA NA Wait time does not include contact time during delivery. Tandem synthesis utilizes double coupling of linker molecule

TABLE 11 Composition of Select Lipid Nanoparticle Formulations LNP siNA Identifier Lipid Components and Molar Ratios Duplex N/P LNP-1 Compound Choles- DSPC PEG- R-008488889- 6 32 terol (10%) DMG 000M (50%) (30%) (2%) LNP-2 Compound Choles- DSPC PEG- R-008488882- 6 32 terol (10%) DMG 000B (50%) (30%) (2%) LNP-3 Compound Choles- DSPC PEG- R-008380929- 6 32 terol (10%) DMG 000H (50%) (30%) (2%) LNP-4 Compound Choles- DSPC PEG- R-008488885- 6 32 terol (10%) DMG 000C (50%) (30%) (2%) N/P ratio = Nitrogen:Phosphorous ratio between cationic lipid and nucleic acid

TABLE 12 Chemical Structures of Lipids in Formulations of Table 11 Lipid Chemical Structure Compound 32

Cholesterol

DSPC

PEG-DMG 

What we claimed is:
 1. A double-stranded short interfering nucleic acid (siNA) molecule that inhibits the expression of cadherin-associated protein, beta 1 (CTNNB1), wherein the siNA comprises: 5′-CUGUUGGAUUGAUUCGAAA-3′ (SEQ ID NO: 5) and 5′-UUUCGAAUCAAUCCAACAG-3′ (SEQ ID NO: 4918).
 2. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1, wherein at least one nucleotide is a chemically modified nucleotide.
 3. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1 further comprising at least one non-nucleotide.
 4. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1, wherein at least one nucleotide comprises a universal base.
 5. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1, having at least one phosphorothioate internucleotide linkage.
 6. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1, comprising a cap on the 3′-end, 5′-end or both 3′ and 5′ ends of at least one strand.
 7. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1, comprising one or more 3′-overhang nucleotides on one or both strands.
 8. The double-stranded short interfering nucleic acid (siNA) molecule according to claim 1, wherein the 5′ end of the antisense strand is phosphorylated.
 9. The double-stranded short interfering nucleic acid (siNA) molecule of claim 7, wherein the 3′-overhang nucleotides on at least one strand are 2′-O-methyl nucleotides.
 10. The double-stranded short interfering nucleic acid (siNA) molecule of claim 9, wherein the 2′-O-methyl nucleotides are linked with a phosphorothioate internucleotide linkage.
 11. The double-stranded short interfering nucleic acid (siNA) molecule of claim 2, wherein the chemically modified nucleotide is a 2′-deoxy-2′-fluoro nucleotide.
 12. The double-stranded short interfering nucleic acid (siNA) molecule of claim 2, wherein the chemically modified nucleotide is a 2′-deoxy nucleotide.
 13. The double-stranded short interfering nucleic acid (siNA) molecule of claim 2, wherein the chemically modified nucleotide is a 2′-O-alkyl nucleotide.
 14. A double-stranded short interfering nucleic acid (siNA) molecule comprising SEQ ID NOS: 2021 and
 2068. 15. A double-stranded short interfering nucleic acid (siNA) molecule comprising SEQ ID NOS: 2147 and
 6368. 16. A composition comprising: (a) the double-stranded short interfering nucleic acid (siNA) of claim 14; (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine; (c) cholesterol; (d) DSPC; and (e) PEG-DMG.
 17. A composition comprising: (a) the double-stranded short interfering nucleic acid (siNA) of claim 15; (b) (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine; (c) cholesterol; (d) DSPC; and (e) PEG-DMG.
 18. The composition according to claim 16, wherein the (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine, cholesterol, DSPC, and PEG-DMG have a molar ratio of 58:30:10:2, respectively.
 19. The composition according to claim 16, further comprising sucrose, trehalose, or any combination thereof.
 20. The composition according to claim 17, wherein the (13Z,16Z)—N,N-dimethyl-3-nonyldocosa-13,16-dien-1-amine, cholesterol, DSPC, and PEG-DMG have a molar ratio of 58:30:10:2, respectively. 